KAZIMIERZ M. BORKOWSKI
Toruń Radio Astronomy Observatory,
Nicolaus Copernicus University,
Toruń, Poland
(Received 23 February, 1990)
| Abstract. A complete survey of past and future umbral eclipses of the Moon visible in Europe is presented in a tabular form. It contains full details of the local circumstances of 1705 eclipses for the geographical location of Warsaw (Poland). Of these, 502 end or begin 0 to 25.5 degrees below the astronomical horizon at Warsaw, thus are observable only at other European places. A set of simple formulae is given that allows to calculate the local circumstances for arbitrary location. A new simple and accurate algorithm to compute the times of contacts, which is based on a solution on a sphere instead of on a tangent plane, thus without the use of the Besselian elements, is presented. |
1. Introduction
A spectacle of lunar eclipse, though not that impressive as a solar eclipse, is one of great beauty. Before the eclipse, with the Moon at full, only the brightest stars are seen. As the eclipse proceeds, more stars become visible, till at the total phase, which may last well over one hour, the sky is filled with stars. In general, a lunar eclipse takes place whenever at least a part of the Earth comes directly between the Moon and the Sun. If the Sun seen from anywhere on the Moon appears completely obscured by the globe of Earth then such eclipse is called umbral. The other case, corresponding to immersion of the Moon into penumbra or half-shadow cast by the Sun, is known as penumbral eclipse. Penumbral eclipses cannot be detected by unaided eye, therefore they are of much lesser importance and I shall not discuss these in this paper. The average number of umbral eclipses in 100 years is about 154, of which 71 are total, and it is possible to have in one year none or up to 3 such events.
Eclipses of the Moon were of great importance in ancient times as they revealed the spherical form of the Earth and later permitted an estimate of the distance of the Moon from the Earth (Dyson and Woolley 1937). Presently, records of historical eclipses of the Moon carry similar scientific impact as do records of solar eclipses. They are useful for dating historical events, tying different calendars, improving theories of motion of the Moon and Earth in space and studying the Earth rotation — to name more important practical applications.
There are a few canons of lunar eclipses available in the world literature. The most widely known of these is a book by Oppolzer (1887), which describes 5200 eclipses. Examples of modern times are Meeus and Mucke (1983) and Liu (1983). Unfortunately, similarly as with canons of solar eclipses, the mentioned sources are rather difficult to reach, if they are at all available in this country.
This paper is a companion to my earlier work (Borkowski 1989, hereafter Paper I) where survey of solar eclipses visible from territory of Poland was presented. In the following I shall give short description of procedures to obtain the tabular data and explanation of the results themselves. My tabulation envelopes all eclipses potentially visible from anywhere in Europe in the period from AD 900 to AD 2200. Of course, the visibility of eclipses is by no means limited to this continent since any particular phase of lunar eclipse is observable from the entire hemisphere over which the Moon is above the horizon and the circumstances, i.e. geocentric coordinates of the Moon and times (Dynamical or Universal Time) of contacts and maximum phase, are the same for all parts of the Earth. In closing section I shall discuss some of historical records of eclipses aiming to assess the external accuracy of presented results (the precision of computation is well below the last significant digit given in tabulation).
2. Computer Programs
The programs (written in Fortran77) used in present work remain essentially the same as in the earlier mentioned companion paper, except for improvements introduced in the time intervening (about one year). The most important of them is the replacement of subroutine for computing sky positions of the Sun. The new, more accurate, algorithm was taken from Stumpff (1980). Following extensive tests, it has been modified by replacing the Newcomb constants with the new IAU values (e.g. Kaplan 1981), which in particular assume the value of the secular deceleration of the lunar longitude of twice 5.802 "/cy2 (at the epoch 2000.0). Also, a simplified model for the nutation was added. The modified subroutine should give Sun's coordinates accurate to about 2", a factor of a few times improvement over the previous algorithm of Meeus (1982).
The subroutine for lunar positions is still based on Meeus (1984) algorithm (but considerably modified as described in Paper I), even though I have access to much more precise semianalytical ephemeris (named ELP 2000-85) of Chapront-Touzé and Chapront (1988). Preliminary tests of that French ephemeris (Borkowski 1988) have indicated large differences as compared to results of forecasting (or rather hind casting) of ancient solar eclipses, presumably due to differences in formulae for the mean orbital elements of the Moon and Earth in the two algorithms.
To create a list of eclipses the program searches forward in time for all oppositions (in ecliptic longitude) of the Sun and Moon to find one at which eclipse is possible, i.e. the numerical value of the ecliptic latitude of the Moon is less than about 1.07°. When this condition is fulfilled then the real angular separation of the Moon and the shadow is calculated for the purpose of estimating the duration of a possible eclipse [use is made of a relation of the type of Equation (8) below]. Next, the ecliptic coordinates (latitude β and longitude L) are computed for two times (DT and DT' placed symmetrically about the moment of approximate opposition) separated by the estimated duration (however not less than one hour). Further analysis is carried out in an ecliptic coordinate system in which the longitudes are replaced by the difference of actual longitudes and the longitude of the umbra, Λ = Lm – Lu. It means that the umbra, whose position on the sky is opposite to the Sun's, assumes fixed place during the eclipse at the origin of coordinates. Now, the (dynamical) times of the maximum phase (DTo) and of contacts of the Earth's umbra with the Moon's limb: beginning (DTo – t) and end (DTo + t) of eclipse, are computed through an exact solution on the sphere according to a new algorithm explained below.
Recall that in a typical algorithm (see e.g. Danjon 1959, Explanatory Supplement 1961, Liu 1963, Link 1969, Dagaev 1978, 1981, Duffett-Smith 1988) this step is performed with the use of the Besselian elements, that is on a plane tangent to the celestial sphere at the position of the Moon. In principle, it requires a second iteration after the times of contacts has been calculated. My approach would not be practical a few tens of years ago, when computers were not so universally available, since it involves evaluations of a number of trigonometric functions of quite small angles. Aside of the trigonometric calculus, it is not really more complicated than classical approaches while being inherently more accurate. In practice this solution yields results so precise that no further corrections or iterations are necessary.
 |
Fig. 1. Celestial sphere with coordinate system used to derive times of contacts of the lunar disk with the Earth shadow during an eclipse. The inclination i of Moon's orbit is here greatly exaggerated. So are the differential ecliptic longitudes Λ and Ω. |
The two positions of the Moon, (Λ,β) and (Λ',β'), define uniquely an instantaneous lunar orbit (this is illustrated in Figure 1), which in our system of coordinates is described by the great circle inclined at the angle
| i = arccos(sinΨ cosβ) | (1) |
to the ecliptic, and having the ascending node at differential longitude
| Ω = Λ – arctg(sinΨ sinβ/cosΨ), | (2) |
where
| Ψ = arctg{sin(Λ' – Λ)/[cosβ tgβ' – sinβ cos(Λ' – Λ)]} | (3) |
and the arctg function in Equations (2) and (3) must be evaluated in the range ± π according to the signs of the numerator and denominator of its argument. The distance from the origin (which coincides with the center of umbra) to the above determined great circle of Moon's path equals to
| σo = arcsin(sini sinΩ). | (4) |
This closest approach of the Moon to the shadow takes place at a point on the path of the Moon separated from (β,Λ) by the arc δl given by
| sin(δl) = (sinσo cosΨ – sinΛ)/(cosσo sinΨ) | (5) |
so that the time of maximum phase obtains from
| DTo = DT + δl/v, | (6) |
where v = Δl/(DT' – DT), with
| Δl = arcsin[cosβ'sin(Λ – Λ)/sinΨ], | (7) |
is the mean angular velocity of the Moon along the path. Lastly, the semi-duration of eclipse is determined from
| t = arccos(cosσ/cosσo)/|v|, | (8) |
with σ equal to (Du + Dm)/2 for partial phase and (Du – Dm)/2 for total phase, where Du and Dm are angular diameters of the shadow of Earth and the Moon. In these computations, in a usual manner, the diameter of the geometric shadow is increased by one fiftieth part to allow for the effect of the atmosphere.
Tests have demonstrated that the described procedure yields solutions for times of contacts that are exact to the precision of computing. In my version I have used the FORTRAN single precision (4 bytes for real numbers) option to obtain mismatches usually well within 1" in the contacts. This translates to errors in times of contacts of a few seconds of time, unless the phase of eclipse is not too small (say greater than a few thousandths).
As a final step the equatorial coordinates of the Moon and shadow are calculated afresh for the three times, DTo ± t and DTo, and are used to calculate local circumstances, i.e. the horizontal coordinates of the Moon and the relative position (angle from vertical) of the umbra's center. Allowance is made for the effects of diurnal parallax and mean atmospheric refraction on the apparent height (altitude) of the Moon (for the latter effect simple formulae are adapted from Almanac for Computers 1988 and are employed only if the resulting height would be greater than –16', i.e. the upper edge of the lunar disk would be just at, or above the horizon).
Since the dynamic time (DT) is the argument of the ephemeris of the Sun and Moon the geographical longitude (eastward positive) is modified prior to computation of local coordinates by subtracting (and not adding up, as I have mistakenly worded it in Paper I as originally published) the sidereal equivalent of ΔT = DT – UT difference (UT standing here for Universal Time, or mean solar time at Greenwich meridian). Also the final solutions for times are converted to the Central European Time (CET = UT + 1 hr) by subtracting ΔT from DT and adding one hour. The values of ΔT that the program uses correspond always to the middle of given calendar year, irrespectively of actual date within the year. In the years 1637 – 1988 these are the observed data according to recent evaluations (Stephenson and Morrison 1984, Astronomicheskij Ezhegodnik 1990; see also Paper I) and for other dates I used quadratic approximations worked out by Stephenson and Morrison (1984):
| ΔT = 25.5 (y/100 – 17.955)2 | (9) |
(formally valid for y > 947), where y is the year of the common era. However, for the years after 1988 I was forced to subtract 34 s from the original formula (9) to compensate for a clear jump in passing from observed to predicted data.
3. Main Results — Explanations to Table 1
Using the above described scheme all oppositions of the Sun with the Moon between 900 and 2200 (inclusive) were checked for possibility of eclipses. The search resulted in a table of circumstances of round number of 2000 eclipses as would be seen from the perspective of Warsaw (latitude 52.22°, longitude 21.03° or 1h24m). Among these, 922 are total eclipses. For presentation in this paper I have selected only those eclipses that are observable from Europe. The actual criterion was the highest altitude of the Moon at Warsaw during an eclipse greater than –25.5°. There were 1705 such eclipses, 502 of them being still invisible from Warsaw.
The results of thus preselected survey are listed in Table 1. Each row begins with the date encoded as YYYYMMDDdd, where the first four digits (YYYY) give the year of the common era, the next two (MM) the month with 1 standing for January and 12 — for December, and the day of the month (DD) is followed by a two-letter abbreviation (dd) of the English name for day of the week. Before 1582 October 15 (of the Gregorian calendar) the dates are expressed in the Julian calendar. For conversion of dates between the calendars use is made of the algorithm presented in Borkowski (1987).
Next seventeen columns contain the circumstances of the eclipse as seen from Warsaw and some general data useful for calculations of local data for arbitrary geographical location. For the beginning, maximum and end of the eclipse Table 1 lists the CET, the apparent altitude and azimuth [measured along the horizon clockwise (westward) from the south point to the foot of the great circle arc drawn from the zenith through the center of the lunar disk down to the horizon] of the lunar disk center, H and Az, and the umbras's vertical or position angle, V. The position angle is the angle between the vertical circle passing through the vertex of the lunar limb, and the great circle through the centers of the Moon and the shadow, reckoned from the vertex toward the east, i.e. counterclockwise. The three times (expressed in hours and minutes) are independent of geographical position unlike the three angles (all in degrees), which are place specific. If the numerical value of time exceeds 2400 it refers to the next day of the tabular date.
For the maximum phase the table gives in addition two measures of a magnitude of the eclipse, the apparent diameters of the umbra (at the distance of the Moon, Du) and Moon (Dm) in arcminutes and geographical coordinates, longitude (Long) and latitude (Lat) expressed in degrees, of the place at which the Moon is seen right at the zenith. The first of the two measures, called phase, is defined by
| f = [(Du + Dm)/2 – σ]/Dm, | (10) |
where σ is the angular separation of the centers of the disk and umbra (in general at any time but in our table given for the middle of eclipse). Equation (10) essentially gives the fraction of the lunar disk diameter covered by the shadow, measured along the common diameter. However, it may also assume values greater than 1 and as high as 1.9 (see also Paper I for further discussion related to solar eclipses). For times that differ from the time of maximum phase by δT the phase can be calculated from Equation (10) using
| σ = arccos[cos(δl) cosσo], | (11) |
where σo = Du/2 – Dm (0.5 – f) obtains basing on data of Table 1 and δl is the arc the Moon moves relative to the Sun in time δT, i.e. about δT/113 degrees if δT is expressed in minutes.
The other measure of magnitude of an eclipse is the fraction (expressed in percents) of the area of the lunar disk obscured by the umbra. It is known by the name of obscuration and is here denoted by F. The obscuration may only assume values from 0 to 100 %. It can be demonstrated that for partial phases (i.e. when f ≤ 1)
| F = 100 {2(Du/Dm)2 arcsin√[(Dm/Du)f(1 – f)/x] + ψ – x sinψ}/π | (12) |
where x = 1 + Du/Dm – 2f is the angular separation expressed in lunar radii (2σ/Dm), and
| ψ = 2 arcsin√{f(Du/Dm – f)/x}. | (13) |
The quantity ψ is one half of the angle at which the two points, where the lunar limb crosses the umbra's edge, are seen from the center of the Earth's shadow.
For all total eclipses the obscuration (equal to 100 %) has been replaced by the semi-duration of the total phase (in minutes). Occasionally, here nevertheless appears one hundred for the obscuration, which is to be understood that given eclipse, although very close to, is not really total. The replacements were marked by a lower case t. To obtain the time of beginning/end of totality one just subtracts/adds the tabular number from/to the time of maximum phase.
Finally, the rightmost column (R/S) gives the time (CET) of moonrise or moonset (whichever is closer to the eclipse) in Warsaw. For this purpose the rising or setting are considered to occur when the lower edge of the disk of the Moon (south limb) appears to be exactly on the horizon.
4. Use of the Table 1 for Other Locations
The local coordinates of our tabulation refer to Warsaw. Here I shall suggest a simple algorithm to calculate the altitude (H), azimuth (Az) and vertical angle (V) for any location with geographical coordinates λ (longitude, positive toward the east) and φ (latitude, positive toward the north). To start with, one may calculate the local hour angle τ of the Moon at a chosen time. For the time of maximum of eclipse it reads simply
| τo = λ – Long, | (14) |
where Long is our tabular value. For time Δt (of mean solar time) away from the maximum
| τ ≈ τo + 0.9645 Δt, | (15) |
where Δt is expressed in the same units as τo (and may, of course, assume negative values). Then:
| H = arcsin[sinφ sin(Lat) + cosφ cos(Lat) cosτ], | (16) |
| Az = arctg{sinτ/[sinφ cosτ – tg(Lat) cosφ]} | (17) |
| p = arctg{sinτ/[tgφ cos(Lat) – cosτ sin(Lat)]}, | (18) |
where p is the parallactic angle (subtended by great circles, one passing from the Moon to the zenith and the other from the Moon to the north celestial pole). The altitude, Equation (16) above, should still be corrected for the horizontal parallax of the Moon, and it can approximately be done by the subtraction of 57 cos(H) (in arcmin). Also, mean atmospheric refraction might be included, although this is still less significant and the greatest correction of 35' is added for H ≈ 0. To obtain the local position angle it is necessary to calculate additionally the parallactic angle for Warsaw, pw, and then add to our tabular V the value of pw – p.
While evaluating Az and p according to Equations (17) and (18) the reader must chose the proper quarter by noting that the sine and cosine of the results carry the same algebraic sign as do the numerator and denominator, respectively, of the argument of the corresponding arctg function.
For historical dates it may be more appropriate to give the (mean solar) local time instead of CET. To convert our tabular times into the local times it suffices to add the longitude of given place to our CET diminished by 1 hour, i.e. to take λ + CET – 1h.
As an example, take the eclipse of 927 September 14, known to have been carefully observed at Baghdad (44.4°E, 34.4°N). Using data of Table 1 and the above algorithm one arrives at the following local times and angles (in degrees) for the beginning and end of that eclipse (exact values are given in brackets):
|
Note that the described procedure may be used, in an iterative process, to estimate also the time of rising or setting of the Moon. Its accuracy is limited primarily by the assumption of constant declination (Lat) and rate of change (of 0.9645 per unit of the mean time) of the hour angle of the Moon.
5. Remarks on Accuracy
In order to check that my computations are as precise as possible with available ephemerides of the Sun and Moon I have carried out a number of comparisons with results presented in various publications (handbooks, astronomical yearbooks etc.). For 20th century my data were consistent with others generally at the level of 0.1 minute of time in times of contacts, at 0.1° of position angles and to about 0.003 in phases. To the precision of tables of Liu (1965), who presents umbral eclipses for the years 1964 to 2163, our results are also in good agreement. Such a check was scarcely possible for more remote historical epochs since literature available to me lacks in accurate examples. Thus I have compared my predictions with some records of historical observations of (lunar and solar) eclipses.
One of them is mentioned in Islamic writings (of Ibn Iunis or Yunus) as having been observed at Baghdad in 927 on September 14 (Stephenson and Clark 1978). Some of calculated local circumstances I have already presented in the example of previous section. According to the old record this eclipse begun 9 hours and 54 minutes (148° in rotation of the sky) after the sunset at 10h14m and ended 9 minutes of the daytime, both in seasonal hours. My calculations indicate that this eclipse commenced 10h05m after sunset (which I find to occur at about 1804 of local time at Baghdad on the previous day) and lasted for 99 minutes to end about 4 minutes after sunrise (the Sun begun to rise at 545 of local time). If 9 minutes 'of the daytime' can be interpreted as 9 minutes after sunrise, there is about 5 minute error in my prediction. However, there remains considerable discrepancy in calculated and observed duration of this eclipse. In search for the source of this disagreement I used temporarily the French ephemeris of the Moon (ELP 2000-85 of Chapront-Touzé and Chapront, 1988; with –26" cy–2 for the lunar tidal acceleration) in place of the Meeus algorithm in my program. This has shifted the time of beginning and end by less than a minute leaving the duration of the eclipse insignificantly changed. Thus, the external accuracy of my results in the 10th century seem to be no better than 5 minutes. In the light of the above considerations it is entirely reasonable to ascribe this inaccuracy fully to uncertainty in the ΔT represented by Equation (9).
Another example comes from Babylon, where the partial lunar eclipse of 28 December, 66 BC which occurred at sunset was observed. Shortly (36 minutes) after sunset Babylonians estimate the magnitude to be over one-third of the disk (Stephenson and Clark 1978). I find the sunset at Babylon to begin at 1703 and the phase at maximum (at 1747, both in local time) of 0.35 — thus in quite good agreement with original clay tablet inscription.
Recently Pang (1987) and Pang et al. (1988) have analyzed three ancient "dawn" eclipses of the Sun: at Loyang (13 November, AD 532), Zheng (21 April, 899 BC) and An-yi (newly determined date of 16 October, 1876 BC; this is the oldest known record of an eclipse). My analysis gave results within a few minutes of times found by them (of course, after taking into account the suggested corrections to ΔT curve). Since Pang and his co-workers gave reasons to believe that their investigation is well founded and the epochs of these eclipses are very far beyond the time span of Table 1, I take the noted agreement as quite firm indication of correctness of my program (which uses the same ephemerides for lunar and solar eclipses).
Finally, I would like to mention that some of the results presented in this paper were kindly checked by Dr. ing. M. Zawilski (of Łód Polytechnic) using entirely independent methods and techniques.
To sum up, the presented results for modern epochs, say after 1600, seem to be accurate at least to the least significant digit given, and for earlier epochs the accuracy gradually deteriorates up to a few minutes in times (CET) at the beginning of Table 1. These errors can be ascribed to uncertainties in our knowledge of the detailed history of Earth's rotation, as embodied in the functional relationship between the Dynamical Time and Universal Time.
References
Almanac for Computers, 1988, 12th edition, p. B14 (Equations 1 and 2), Nautical Almanac Office, USNO, Washington (DC).
Astronomicheskij Ezhegodnik SSSR, 1990, Nauka, Leningrad (1988).
Borkowski, K.M., 1987, Post. Astronomii, 35, 275.
Borkowski, K.M., 1988, Astron. Astrophys., 205, L8.
Borkowski, K.M., 1989, Post. Astronautyki, 22, 99–130.
Chapront-Touzé, M., Chapront, J., 1988, Astron. Astrophys., 190, 342.
Dagaev, M.M., 1978, Solnechnye i lunnye zatmeniya, Nauka, Moskva.
Dagaev, M.M., 1981, in Astronomicheskij Kalendar' — postoyannaya chast' (ed. by V.K. Abalakin), Nauka, Moskva, p. 149.
Danjon, A., 1959, Astronomie GwXnwXrale, J. et R. Sennac, Paris, p. 303.
Duffett-Smith, P., 1988, Astronomy with Your Personal Computer, University of Cambridge Press, p. 197.
Dyson, F., Woolley, R. v.d. R., 1937, Eclipses of the Sun and Moon, Oxford at the Clarendon Press.
Explanatory Supplement AENA, 1961, Her Majesty's Stationery Office, London, p. 257.
Kaplan, G.H., 1981, USNO Cir. No. 163, Washington (DC).
Link, F., 1969, Eclipse Phenomena in Astronomy, Springer, Berlin.
Liu Bao-lin, 1963, Acta Astron. Sinica, 11, 168.
Liu Bao-lin, 1965, Acta Astron. Sinica, 13, 114.
Liu Bao-lin, 1983, Canon of Lunar Eclipses from 1000 BC to AD 3000, Publ. Purple Mountain Obs.(Nanjing), vol. 2, No. 1, 1–136.
Meeus, J., 1982, L' Astronomie, 96, 96.
Meeus, J., 1984, L' Astronomie, 98, 348.
Meeus, J., Mucke, H., 1983, Canon of Lunar Eclipses, –2002 to +2526, Astronomisches Büro, Vienna, Austria.
Oppolzer, T.R.v., 1887, Canon der Finsternisse, Vienna.
Pang, K.D., 1987, J. Hydrology, 96, 139.
Pang, K.D., You, K., Chou, H., Wolff, R., 1988, Vistas Astron., 31, 833.
Stephenson, F.R., Clark, D.H., 1978, Applications of Early Astronomical Records, Adam Hilger Ltd, Bristol, pp. 30 – 33.
Stephenson, F.R., Morrison, L.V., 1984, Phil. Trans. R. Soc. London, A313, 47.
Stumpff, P., 1980, Astron. Astrophys. Suppl. Ser., 41, 1.
|
Circumstances of all lunar umbral eclipses visible from Europe in the years
900—2200. Each line contains the date (Year M Day, Julian calendar
until 1582, Oct. 4, Gregorian afterward), Central European Time (CET, in hours
and minutes), height of the Moon above horizon (H), its azimuth (Az, measured westward
from south) and position angle
of the Earth shadow relative to the lunar disk (V) for the beginning, middle and end of
eclipse. All the above angles refer to Warsaw and are given in degrees. For the time of
maximum eclipse provided are also the phase (f), percentage of obscuration or semi
duration of totality in minutes (F/t), angular diameters (in arcmin.) of umbra (Du) and
Moon (Dm), and geographical coordinates (Lat, Lon) at which the Moon is in the zenith. The
rightmost column (R/S) contains nearest time of moonrise or moonset (whichever is closer to the eclipse) at Warsaw. Note: The content of this web table is the same as in the printed version, however the last entry (a row) in some of the sub-tables were moved to the next sub-table to meke each of them contain all eclipses in the years indicated in the following index: |
Table 1 - page 1------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 900 218Mo 921-21 141 63 1112-28 169 1.20 t35 77.3 29.4 210.7 9.8 1303-27 199 317 634 901 2 6Fr 936-18 146 104 1123-24 172 1.15 t30 79.5 30.0 208.3 14.4 1311-23 200 274 700 901 8 2Su 2357 20 5 50 2536 15 29 1.06 t19 87.3 31.9 352.1 -17.0 2715 6 50 254 2810 9021217Fr 1931 34 278 45 1947 37 281 0.02 0 92.2 33.5 78.6 22.5 2003 39 285 26 1525 903 612Su 1955 1 311 182 2104 7 325 0.34 27 78.5 29.5 58.7 -22.8 2212 12 340 236 1947 90312 7We 927-12 152 40 1107-16 174 1.20 t32 90.0 32.9 207.4 22.8 1247-14 197 292 726 904 531Th 2243 14 349 111 2437 13 16 1.81 t52 82.8 30.7 4.7 -22.7 2632 5 40 255 2720 9041125Su 2037 46 297 130 2222 57 331 1.22 t35 83.7 31.2 37.1 22.2 2408 59 17 225 1516 907 924Th 1200-37 191 39 1338-30 218 0.97 99 85.2 31.5 168.3 1.8 1516-19 241 302 1724 908 320Su 1930 14 294 131 2116 27 318 1.14 t28 81.9 30.6 57.4 -2.3 2301 33 347 330 1747 908 913Tu 046 32 24 61 230 23 51 1.41 t42 91.1 33.1 336.0 -1.8 413 10 73 191 526 909 9 2Sa 1814 2 282 166 1855 7 290 0.14 8 92.6 33.4 90.2 -5.3 1935 13 298 207 1803 910 724Tu 2329 17 357 6 2413 17 8 0.15 9 85.5 31.4 13.1 -19.8 2458 15 18 305 2758 911 117Th 1344-14 208 147 1526 -5 230 1.21 t33 87.4 32.2 147.1 20.1 1708 8 249 306 1605 911 714Su 447-11 67 26 642-27 88 1.50 t49 79.8 29.9 275.5 -21.4 837-43 113 227 324 912 1 7Tu 350 33 82 44 530 18 101 1.26 t35 91.9 33.4 295.0 21.5 710 4 118 269 746 912 7 2Th 604-23 81 73 740-37 100 0.76 79 78.1 29.4 260.5 -22.3 916-50 123 189 314 9121226Sa 2050 45 296 58 2111 48 302 0.04 1 91.0 33.2 58.5 22.1 2132 50 308 30 1522 91411 5Sa 1928 33 285 145 2112 47 312 0.97 99 77.5 29.5 53.2 17.8 2257 55 348 240 1541 915 5 2Tu 156 13 37 88 341 2 58 1.60 t47 93.1 33.5 318.5 -16.4 526-13 78 233 357 9151025We 1832 21 276 102 2026 37 301 1.39 t45 78.1 29.7 64.7 13.7 2220 49 335 285 1607 916 420Sa 1910 4 297 201 2000 10 307 0.21 14 89.9 32.6 74.5 -12.5 2050 15 318 246 1841 9161013Su 2330 46 3 6 2416 45 19 0.16 9 83.4 31.1 7.7 9.1 2502 42 34 300 3023 918 228Sa 1648 -5 255 121 1837 11 276 1.13 t29 77.4 29.4 98.8 5.7 2027 26 299 342 1719 918 824Mo 1708-12 271 133 1848 3 290 1.22 t33 92.0 33.2 93.0 -9.2 2027 16 310 261 1828 919 217We 1720 4 258 163 1909 19 279 1.20 t34 79.9 30.1 91.6 10.5 2058 34 303 297 1654 9201228Th 427 28 90 326 441 26 92 0.02 0 92.3 33.5 306.5 22.0 455 24 95 311 750 921 623Sa 238 4 42 132 329 -1 52 0.18 11 78.6 29.6 322.9 -22.7 420 -8 61 173 321 9211217Mo 1816 24 263 105 1956 38 283 1.20 t32 89.7 32.8 76.4 23.2 2136 52 308 318 1520 922 612We 533-20 76 64 727-36 97 1.66 t51 83.2 30.8 262.9 -23.4 920-52 124 238 306 92212 7Sa 506 21 101 58 652 6 120 1.23 t35 83.4 31.1 271.0 23.5 838 -6 140 215 745 923 6 1Su 1712-21 282 103 1835-10 297 0.66 67 89.5 32.5 95.0 -23.3 1958 0 312 352 1957 925 411Mo 1736 -8 276 180 1915 6 296 1.08 t21 88.1 32.2 86.1 -9.8 2054 17 317 297 1829 92510 4Tu 2005 28 301 63 2141 38 326 0.92 95 85.4 31.6 46.9 6.0 2317 44 356 274 1655 926 4 1Sa 247 18 51 71 435 4 74 1.24 t36 81.6 30.5 306.6 -6.5 624-13 94 280 500 927 914Fr 212 25 47 96 301 20 59 0.22 14 92.4 33.4 327.7 -1.1 351 13 69 144 526 929 127Tu 2214 50 323 156 2356 54 2 1.19 t31 87.8 32.3 20.1 17.2 2538 49 39 248 3127 930 117Su 1237-18 193 98 1417-13 215 1.28 t36 92.1 33.4 164.1 19.4 1558 -2 236 340 1614 931 1 7Fr 537 17 102 347 559 13 106 0.04 1 90.9 33.1 287.5 20.8 622 10 110 324 740 932 522Tu 1701-22 279 96 1824-11 294 0.69 70 91.0 32.9 97.6 -22.1 1948 0 309 344 1947 9321116Fr 326 33 80 71 510 17 100 0.95 98 77.3 29.5 294.4 20.6 653 3 119 200 720 93311 5Tu 228 38 65 31 422 22 89 1.42 t46 78.2 29.7 305.8 17.1 616 5 111 235 657 934 5 2Fr 228 11 44 131 329 4 56 0.33 25 89.6 32.5 321.6 -15.8 430 -4 68 189 402 9341025Sa 738-10 125 342 828-16 136 0.20 12 83.7 31.2 244.4 13.0 918-20 148 300 620 936 311Fr 006 39 8 78 153 32 39 1.05 t19 77.5 29.4 348.9 1.4 340 19 64 279 552 936 9 4Su 108 28 28 79 245 19 52 1.13 t26 91.7 33.2 332.7 -5.1 423 6 73 193 509 937 228Tu 058 41 24 110 248 31 55 1.27 t38 80.2 30.2 336.4 6.4 437 15 79 232 622 937 824Th 1450-33 242 89 1635-18 264 1.27 t37 86.4 31.7 126.3 -9.7 1820 -2 284 310 1834 938 217Sa 947-22 147 168 1003-23 151 0.02 0 86.4 31.8 228.3 11.2 1018-24 155 188 642 939 1 8Tu 1322-15 203 24 1332-15 205 0.01 0 92.3 33.5 174.7 20.5 1342-14 207 16 1605 9391229Su 304 40 73 29 444 26 93 1.19 t31 89.5 32.8 305.7 22.6 624 11 111 253 755 9401217Th 1335-10 208 122 1521 0 229 1.23 t35 83.0 31.0 145.0 23.9 1707 13 249 285 1524 941 612Sa 024 12 13 55 153 7 32 0.81 84 89.9 32.6 346.3 -24.1 322 -2 49 282 309 943 423Su 110 20 26 128 246 11 48 0.96 98 87.8 32.1 332.8 -13.5 422 -1 67 230 417 9431016Mo 418 16 84 353 552 3 102 0.88 92 85.7 31.7 283.5 10.1 726-10 121 243 612 94410 4Fr 1718 4 266 110 1903 20 286 1.53 t46 91.4 33.2 86.1 6.8 2047 34 310 260 1652 947 2 8Mo 638 3 108 100 819-11 128 1.16 t29 88.2 32.3 254.5 13.8 1000-21 150 255 701 947 8 4We 1820 -8 289 85 2010 7 310 1.21 t35 79.2 29.8 73.6 -16.4 2200 17 334 283 1913 ------------------------------------------------------------------------------------------Table 1 - page 2 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 948 128Fr 2119 43 306 125 2300 52 339 1.31 t37 92.2 33.5 34.0 16.5 2440 52 18 299 1601 948 723Su 1854 -5 297 130 2042 8 318 1.06 t21 78.2 29.5 65.6 -18.7 2229 17 342 237 1927 949 117We 1419-13 216 55 1444-11 222 0.05 2 90.7 33.1 157.1 18.6 1510 -8 227 33 1616 950 6 3Mo 030 12 14 36 147 8 31 0.56 53 91.3 33.0 347.5 -23.6 303 1 46 286 312 9501127We 1129-16 181 117 1312-13 205 0.93 96 77.2 29.5 174.9 22.6 1455 -4 226 267 1527 951 523Fr 1702-21 279 136 1849 -7 298 1.85 t50 93.1 33.4 91.6 -21.5 2035 6 318 299 1942 9511116Su 1030-18 168 63 1224-18 195 1.44 t47 78.4 29.8 185.9 19.9 1418-10 220 300 1542 95211 4Th 1554 0 243 53 1647 7 253 0.23 15 84.0 31.3 119.7 16.4 1741 15 263 0 1556 954 322We 716-18 108 44 900-31 132 0.96 98 77.7 29.4 241.2 -3.0 1044-40 161 304 519 955 311Su 827-23 126 93 1018-33 154 1.35 t43 80.6 30.2 222.9 2.1 1209-37 186 276 548 955 9 4Tu 2227 30 342 68 2414 31 12 1.35 t41 85.9 31.6 10.7 -5.6 2601 24 40 245 2914 956 228Th 1735 3 263 218 1807 7 269 0.08 3 86.8 31.9 106.6 7.0 1839 12 275 252 1715 958 1 8Fr 1148-18 181 73 1328-14 204 1.18 t30 89.2 32.7 175.8 21.1 1508 -6 225 324 1600 958 7 3Sa 1924 -3 305 137 2113 8 326 1.37 t43 83.9 31.0 57.4 -22.4 2302 14 350 260 1949 9581228Tu 2202 55 318 135 2348 61 3 1.23 t36 82.7 31.0 19.6 23.3 2535 54 46 222 3210 9611026Sa 1240-23 201 46 1413-15 223 0.85 89 86.0 31.8 158.2 13.9 1546 -4 242 312 1613 962 422Tu 1655-17 272 143 1848 -1 293 1.47 t47 81.2 30.3 92.1 -14.1 2041 13 317 332 1852 9621016Th 147 38 50 44 332 24 75 1.57 t47 91.5 33.2 318.4 10.9 517 9 95 196 624 963 411Sa 2012 13 309 69 2039 16 315 0.05 1 77.9 29.4 64.7 -10.9 2105 18 321 37 1829 96310 5Mo 1838 17 281 155 1938 25 294 0.33 26 92.0 33.4 77.0 7.5 2037 33 307 216 1646 965 218Sa 1457-16 229 169 1637 -4 249 1.12 t25 88.6 32.4 129.7 9.9 1816 10 268 312 1706 965 815Tu 114 20 26 24 301 11 50 1.08 t23 78.9 29.7 330.4 -13.0 448 -3 72 232 429 966 2 8Th 554 9 100 60 735 -6 119 1.34 t39 92.4 33.5 265.1 13.1 917-18 139 288 655 966 8 4Sa 130 16 29 69 321 6 53 1.20 t35 78.2 29.5 325.5 -15.9 512 -9 75 189 411 967 128Mo 2253 51 338 52 2323 53 349 0.07 3 90.5 33.0 27.9 15.8 2352 53 0 6 1604 96812 7Mo 1933 37 279 163 2115 51 304 0.92 95 77.1 29.5 55.4 23.7 2258 60 342 255 1507 969 6 3Th 031 13 15 78 217 6 38 1.79 t50 93.0 33.4 339.9 -23.0 403 -6 58 238 316 9691126Fr 1837 28 270 117 2031 44 295 1.46 t47 78.5 29.8 65.0 21.9 2225 57 331 298 1518 970 523Mo 1654-22 277 179 1813-11 291 0.58 56 88.9 32.3 100.6 -20.8 1932 -1 305 262 1938 9701116We 017 55 23 8 113 50 43 0.25 17 84.3 31.4 353.8 19.2 209 44 59 289 722 972 4 1Mo 1419-34 232 104 1559-21 254 0.85 89 77.8 29.4 135.7 -7.2 1739 -7 274 357 1825 972 925We 1729 3 269 139 1903 17 288 0.98 99 91.1 33.1 86.7 3.6 2036 29 308 253 1709 973 321Fr 1549-19 249 155 1742 -3 271 1.44 t46 81.0 30.3 111.1 -2.3 1934 13 294 309 1758 973 915Mo 611 -9 98 21 759-24 121 1.43 t44 85.4 31.5 253.5 -1.3 948-35 148 246 510 974 311We 121 36 30 156 205 32 42 0.15 9 87.3 32.0 346.5 2.7 248 27 53 192 600 976 119We 2028 38 292 113 2208 50 320 1.16 t29 89.0 32.6 46.5 18.8 2348 56 357 302 1553 976 714Fr 227 7 40 80 413 -5 61 1.23 t36 84.3 31.1 312.7 -20.7 600-19 80 205 336 977 1 8Mo 625 10 112 75 812 -3 131 1.24 t36 82.4 30.9 254.8 21.8 959-13 153 239 745 977 7 3Tu 1455-43 252 104 1633-29 272 1.09 t22 90.5 32.8 127.5 -23.0 1811-15 290 332 2006 979 514We 1559-29 264 188 1725-17 281 0.70 71 87.1 31.9 112.7 -19.2 1851 -5 297 285 1930 97911 6Th 2109 46 312 63 2240 53 343 0.83 87 86.3 31.9 31.5 17.2 2412 54 19 270 1548 980 5 2Su 2347 20 5 102 2542 14 32 1.61 t51 80.9 30.2 348.3 -17.2 2736 2 56 267 2753 9801026Tu 1023-24 166 65 1208-23 192 1.60 t47 91.6 33.3 189.2 14.6 1353-16 217 260 1610 981 422Fr 230 12 45 24 321 6 55 0.18 11 77.9 29.4 323.5 -14.6 412 0 65 324 409 9811016Su 304 28 70 81 407 19 83 0.36 30 91.8 33.3 309.2 11.6 510 10 95 151 625 983 3 1Th 2309 43 347 152 2447 41 20 1.07 t19 89.0 32.5 6.6 5.8 2625 33 48 246 3017 984 219Tu 1422-21 221 126 1604 -9 243 1.39 t41 92.5 33.5 137.5 9.2 1746 5 263 351 1711 985 2 8Su 720 -5 116 10 755 -9 122 0.10 5 90.4 32.9 259.8 12.3 830-13 130 337 650 986 624Th 1537-38 263 66 1634-29 274 0.29 22 91.8 33.1 126.9 -24.2 1732-21 284 359 2012 9861219Su 337 36 82 85 519 21 102 0.91 94 77.0 29.4 295.8 24.0 701 7 120 212 757 98712 8Th 248 42 72 41 442 25 95 1.47 t47 78.7 29.9 303.6 23.1 636 9 116 247 747 988 6 3Su 003 14 8 123 128 10 27 0.71 72 88.6 32.2 352.1 -22.3 254 3 45 203 324 9881126Mo 847-10 143 5 944-14 155 0.26 18 84.6 31.5 227.0 21.3 1041-17 168 319 717 990 412Sa 2114 19 324 90 2249 25 348 0.73 75 77.9 29.4 32.3 -11.2 2424 25 13 314 1826 99010 7Tu 150 35 49 76 322 23 70 0.93 96 90.8 33.0 321.0 7.9 455 10 89 185 608 991 4 1We 2305 30 351 122 2458 28 23 1.54 t49 81.5 30.4 0.9 -6.5 2652 18 51 249 2904 991 926Sa 1402-26 225 87 1552-13 249 1.49 t46 84.9 31.4 134.6 3.1 1741 4 270 302 1716 992 914We 2059 26 317 22 2129 29 324 0.06 2 79.3 29.9 51.2 -1.9 2200 32 333 343 1740 994 130Tu 502 19 91 39 641 4 109 1.13 t27 88.7 32.5 278.6 15.8 821 -9 128 275 713 995 119Sa 1442-10 221 142 1629 3 242 1.26 t37 82.2 30.8 131.3 19.4 1817 18 262 300 1606 995 714Su 2218 13 341 77 2358 15 4 1.22 t34 90.8 32.8 16.5 -21.3 2539 11 27 267 2744 997 524Mo 2316 16 357 152 2435 14 15 0.55 53 86.8 31.7 5.4 -21.1 2553 10 33 219 2730 9971117We 543 11 106 0 714 0 123 0.82 86 86.6 32.0 263.6 19.9 846-10 142 263 710 99811 6Su 1905 29 280 115 2050 44 305 1.63 t47 91.7 33.3 58.8 17.9 2235 54 339 255 1544 9991027Fr 1137-23 185 121 1242-21 201 0.39 33 91.6 33.3 180.4 15.4 1347-16 216 216 1604 1001 312We 714-13 110 112 850-26 130 1.00 t 3 89.4 32.6 245.0 1.5 1026-35 155 256 548 1001 9 5Fr 1525-24 248 64 1704 -9 267 0.85 89 78.3 29.6 118.2 -5.2 1844 6 286 309 1804 1002 3 1Su 2243 41 339 118 2426 41 13 1.44 t43 92.6 33.5 11.5 5.1 2608 34 43 287 3012 1002 825Tu 1509-29 246 109 1704-13 269 1.45 t47 78.3 29.6 118.8 -8.8 1859 5 291 266 1826 1003 219Fr 1537-13 238 82 1618 -8 247 0.14 8 90.2 32.8 133.6 8.5 1659 -2 255 42 1712 1003 814Sa 2003 10 307 162 2046 15 316 0.14 7 83.1 30.8 63.7 -12.0 2129 19 326 197 1844 ------------------------------------------------------------------------------------------Table 1 - page 3 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1004 7 4Tu 2317 13 355 14 2400 13 5 0.16 9 92.0 33.2 15.9 -23.3 2444 12 15 313 2731 10041229Fr 1140-15 180 132 1321-12 203 0.89 93 77.0 29.4 176.7 23.3 1503 -4 224 279 1540 1005 624Su 1528-38 261 111 1713-23 280 1.52 t46 92.8 33.3 117.2 -23.5 1857 -9 299 308 2006 10051218Tu 1100-15 172 80 1254-13 198 1.48 t48 79.0 29.9 182.0 23.4 1448 -5 222 314 1534 100612 7Sa 1720 15 254 73 1818 24 264 0.27 19 84.9 31.5 99.6 22.5 1916 32 275 12 1522 1008 423Fr 404 0 64 27 532-13 81 0.60 59 78.1 29.5 290.9 -14.9 700-26 98 286 405 10081017Su 1018-26 164 97 1149-26 188 0.89 92 90.5 33.0 193.9 12.0 1320-22 210 242 1628 1009 412Tu 614-16 92 73 808-32 116 1.66 t51 81.9 30.5 252.8 -10.5 1002-45 146 259 431 100910 6Th 2201 41 333 80 2351 44 10 1.54 t48 84.5 31.3 14.0 7.4 2541 37 44 238 3015 1010 4 1Sa 1636-15 261 200 1739 -6 274 0.34 27 88.2 32.2 111.1 -5.9 1841 4 286 268 1816 1010 926Tu 412 12 77 328 456 6 85 0.13 7 78.9 29.8 298.7 2.4 540 0 94 283 537 1012 210Su 1329-23 207 96 1508-14 229 1.10 t24 88.5 32.4 151.8 12.2 1647 -2 249 345 1657 1012 8 4Mo 1654-19 272 146 1833 -5 290 0.98 100 85.0 31.3 97.6 -15.3 2012 8 309 259 1907 1013 129Th 2252 52 337 133 2441 52 20 1.28 t39 81.9 30.7 8.9 16.4 2629 42 55 233 3126 1013 725Sa 546-17 80 25 729-32 99 1.35 t40 91.0 32.9 264.0 -18.9 912-46 124 244 338 1014 714We 2358 15 5 3 2420 14 10 0.04 1 93.1 33.4 11.1 -21.9 2442 14 14 333 2740 10151128Mo 1421 -8 221 68 1552 3 238 0.82 85 86.9 32.1 135.2 21.8 1722 15 254 331 1529 1016 524Th 1312-54 223 134 1509-39 255 1.78 t53 80.4 30.0 146.7 -21.8 1705-23 278 323 1954 10161117Sa 353 28 86 39 538 13 106 1.64 t48 91.8 33.4 287.6 20.6 723 0 125 213 720 1017 513Mo 1508-38 255 100 1628-26 271 0.47 43 78.0 29.4 126.4 -20.4 1748-15 286 15 1938 101711 6We 2017 40 296 155 2123 49 315 0.41 35 91.3 33.2 50.3 18.7 2230 55 338 212 1537 1019 323Mo 1512-24 241 182 1645-12 260 0.92 96 89.8 32.7 125.2 -2.7 1818 2 279 306 1805 1019 916We 2243 35 346 33 2418 35 15 0.76 79 78.1 29.6 8.9 -0.9 2554 29 42 252 2936 1020 312Sa 656-11 106 72 839-25 128 1.51 t45 92.8 33.5 247.2 0.8 1023-35 154 295 542 1020 9 4Su 2212 30 338 83 2408 32 11 1.56 t50 78.4 29.6 11.9 -4.8 2605 24 42 208 2918 1021 3 1We 2347 42 1 54 2434 40 16 0.19 12 90.0 32.8 9.0 4.3 2522 37 30 344 3006 1021 825Fr 309 13 56 92 406 6 67 0.25 17 83.4 30.9 313.1 -8.3 502 -2 79 145 449 1023 1 9We 1940 34 279 178 2121 48 303 0.87 91 77.0 29.4 57.9 21.6 2302 57 338 270 1534 1023 7 5Fr 2259 14 351 67 2441 13 15 1.38 t41 92.6 33.3 5.5 -22.6 2624 7 37 248 2733 10231229Su 1911 31 273 133 2105 47 299 1.49 t48 79.2 30.0 60.5 22.7 2259 58 338 307 1522 1024 624We 1415-48 242 146 1552-35 264 0.98 99 87.8 32.0 137.3 -22.9 1728-21 282 273 2001 10241218Fr 154 50 56 5 253 42 71 0.28 21 85.3 31.6 332.1 22.7 352 33 83 294 752 10261028Fr 1852 26 279 149 2021 39 299 0.85 89 90.2 32.9 65.7 15.7 2151 49 325 246 1553 1027 423Su 1318-47 220 129 1512-33 250 1.79 t52 82.3 30.6 146.0 -14.2 1707-17 273 320 1904 10271018We 607 1 107 30 758-14 129 1.58 t49 84.0 31.2 251.9 11.4 948-24 154 248 612 1028 412Fr 005 27 9 150 116 23 27 0.45 40 88.7 32.3 356.0 -9.9 226 17 44 210 443 1030 220Fr 2147 39 320 104 2325 45 351 1.05 t17 88.3 32.3 27.1 8.2 2503 43 24 298 1651 1030 816Su 020 24 12 100 155 19 36 0.87 91 85.3 31.4 346.7 -11.8 329 9 57 192 438 1031 210We 654 0 111 84 843-14 133 1.32 t41 81.7 30.6 248.2 12.8 1033-24 158 255 654 1031 8 5Th 1320-49 219 89 1505-37 248 1.47 t44 91.3 33.0 149.8 -15.9 1649-22 269 310 1918 103312 8Sa 2303 60 347 55 2433 58 27 0.82 85 87.2 32.2 6.1 22.8 2603 49 58 262 3201 1034 6 4Tu 1950 1 311 138 2145 10 335 1.62 t51 80.1 30.0 48.0 -23.0 2341 14 1 273 1945 10341128Th 1243-15 199 96 1428 -7 221 1.65 t48 91.9 33.4 155.9 22.5 1613 6 241 286 1526 1035 524Sa 2126 10 331 83 2256 14 352 0.63 63 78.1 29.4 29.8 -22.3 2425 14 12 317 1934 10351118Tu 501 18 100 83 609 9 112 0.42 36 91.1 33.2 279.6 21.3 716 1 124 169 723 1037 4 2Sa 2305 30 351 157 2434 29 16 0.84 88 90.2 32.8 7.0 -6.8 2604 22 39 241 2900 1037 927Tu 608 -5 101 345 740-18 119 0.68 69 77.8 29.5 257.6 3.4 912-28 141 257 534 1038 323Th 1500-26 239 142 1645-12 261 1.60 t47 92.8 33.5 125.0 -3.5 1829 3 281 345 1808 1038 916Sa 527 -2 90 28 723-18 113 1.65 t52 78.4 29.7 262.3 -0.5 920-32 141 212 516 1039 313Tu 746-19 116 26 841-26 128 0.26 18 89.8 32.7 246.5 0.1 935-32 141 336 537 1041 120Tu 334 35 75 103 514 20 95 0.85 89 77.1 29.4 300.3 19.2 654 5 113 222 735 1042 1 9Sa 321 38 75 57 514 21 97 1.51 t48 79.5 30.1 299.2 21.1 708 5 118 261 744 1042 7 5Mo 2122 9 329 121 2303 15 351 1.11 t25 87.4 31.9 30.0 -21.9 2444 14 15 223 1945 10421229We 1028-15 163 33 1128-17 177 0.29 22 85.6 31.7 204.6 22.0 1228-16 190 346 737 1044 514Mo 1734-16 284 81 1841 -7 296 0.32 25 78.5 29.5 93.3 -20.8 1948 2 309 3 1935 104411 8Th 331 30 81 74 500 17 98 0.83 87 89.8 32.8 296.4 18.9 629 5 114 191 708 1045 5 3Fr 2018 8 315 126 2212 17 340 1.78 t52 82.8 30.7 40.8 -17.5 2406 19 8 277 1903 10451028Mo 1419-13 225 96 1610 1 247 1.60 t49 83.6 31.1 128.7 15.1 1801 17 268 305 1604 10461017Fr 1915 25 287 51 2012 33 300 0.23 15 78.3 29.7 68.5 10.8 2109 40 314 342 1625 1048 3 3Th 558 1 96 42 735-14 114 0.99 100 88.0 32.2 264.0 4.0 911-26 135 290 601 1049 220Mo 1446-19 227 148 1637 -5 250 1.37 t43 81.4 30.5 129.4 8.8 1827 11 271 310 1710 1049 815Tu 2102 16 321 90 2247 24 346 1.58 t47 91.4 33.1 33.7 -12.3 2433 24 14 256 1843 1050 2 9Fr 1814 13 266 228 1824 15 268 0.01 0 77.4 29.5 103.1 13.5 1835 16 270 239 1640 1050 8 5Su 1442-40 243 53 1537-33 255 0.27 20 92.8 33.4 142.0 -16.4 1631-25 266 356 1921 1051 626We 2110 8 326 184 2147 11 334 0.11 5 85.5 31.4 48.6 -22.3 2225 13 342 212 1946 10511220Fr 744 0 129 21 915-10 147 0.82 85 87.5 32.2 237.0 22.9 1045-15 166 292 741 1052 615Mo 224 5 39 83 419 -8 61 1.46 t47 79.9 29.9 310.2 -23.4 613-24 81 223 313 105212 8Tu 2137 54 313 117 2322 61 355 1.66 t48 92.0 33.4 23.9 23.5 2506 56 39 230 1508 1053 6 4Fr 342 -4 55 33 519-17 73 0.79 83 78.2 29.4 294.4 -23.6 657-32 90 273 308 10531128Su 1350 -9 213 149 1457 -3 227 0.43 37 90.9 33.1 148.5 23.2 1605 5 239 242 1520 1055 414Fr 652-21 99 116 817-33 118 0.74 76 90.6 32.8 250.6 -10.7 943-43 140 235 432 105510 8Su 1342-24 218 43 1510-14 238 0.61 60 77.6 29.5 144.5 7.6 1638 -2 256 321 1649 ------------------------------------------------------------------------------------------Table 1 - page 4 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1056 4 2Tu 2258 29 350 118 2443 28 19 1.69 t49 92.9 33.5 4.6 -7.6 2628 19 45 278 2855 1056 926Th 1251-32 206 80 1448-20 235 1.72 t52 78.5 29.7 150.3 3.8 1645 -4 259 275 1710 1057 323Su 1537-22 248 98 1638-14 260 0.33 26 89.5 32.6 126.3 -4.2 1740 -5 272 32 1811 1057 915Mo 1803 5 278 148 1915 15 292 0.43 38 83.9 31.1 84.1 0.0 2027 25 308 220 1731 1059 131Su 1123-22 173 142 1302-21 198 0.81 85 77.1 29.4 183.7 16.1 1440-14 221 285 1640 1059 727Tu 1408-46 236 78 1546-33 259 1.13 t26 92.1 33.2 139.8 -18.5 1724-18 277 312 1932 1060 120Th 1127-19 175 98 1321-17 202 1.54 t49 79.8 30.1 178.4 18.7 1515 -8 227 328 1620 1060 716Su 430 -7 65 56 614-22 84 1.24 t36 86.9 31.8 282.4 -20.2 759-37 105 194 333 1061 1 8Mo 1901 27 272 90 2002 36 284 0.31 24 86.0 31.8 77.2 20.5 2103 44 299 17 1543 1062 526Su 021 13 12 20 110 11 23 0.17 10 78.6 29.6 356.3 -22.8 200 8 34 316 319 10621119Tu 1213-16 193 127 1342-11 212 0.81 85 89.5 32.8 166.7 21.5 1510 -3 230 261 1532 1063 515Th 316 2 52 60 509-13 73 1.64 t51 83.2 30.8 296.5 -20.2 702-30 94 242 330 106311 8Sa 2235 54 342 85 2427 53 27 1.62 t50 83.2 31.1 4.8 18.3 2618 42 61 233 3116 1064 5 3Mo 1450-38 248 176 1614-26 265 0.69 70 89.5 32.5 130.3 -16.8 1739-14 281 280 1918 10641028Th 300 32 70 342 401 23 83 0.26 19 78.1 29.7 311.1 14.5 502 14 95 277 641 1066 314Tu 1359-31 221 101 1534-20 244 0.92 95 87.7 32.1 143.4 -0.3 1708 -7 263 356 1757 1066 9 6We 1538-21 250 147 1704 -8 267 0.69 70 85.9 31.6 117.7 -3.7 1831 5 283 250 1755 1067 3 3Sa 2228 39 335 135 2420 41 11 1.43 t46 81.2 30.4 12.9 4.6 2612 33 44 250 3013 1067 827Mo 452 -2 77 30 638-17 97 1.67 t49 91.6 33.1 275.3 -8.4 824-32 120 227 440 1068 221Th 129 42 34 161 159 39 43 0.06 2 77.5 29.4 349.1 9.5 229 36 51 182 642 1068 815Fr 2218 22 339 35 2322 24 355 0.38 31 92.6 33.4 25.2 -12.8 2425 24 12 301 1846 10691230We 1626 6 242 92 1756 18 258 0.81 85 87.9 32.3 107.9 22.1 1926 31 275 347 1537 10701220Mo 631 9 115 55 816 -3 135 1.66 t48 92.1 33.5 251.8 23.6 1000-12 156 245 748 107112 9Fr 2239 60 336 148 2347 61 7 0.43 37 90.6 33.1 17.4 24.2 2455 58 36 188 3214 1073 424We 1434-38 241 189 1554-27 259 0.63 63 90.9 32.9 135.8 -14.2 1714-16 275 291 1906 10731018Fr 2123 42 319 44 2248 48 347 0.56 53 77.4 29.5 29.5 11.5 2413 48 18 277 1622 1074 414Mo 648-21 99 76 834-36 121 1.79 t50 92.9 33.5 246.1 -11.5 1020-47 151 282 426 107410 7Tu 2026 32 306 93 2222 43 339 1.79 t53 78.6 29.8 36.1 8.0 2419 44 19 229 1643 1075 4 3Fr 2318 29 356 70 2426 28 14 0.42 36 89.3 32.5 8.3 -8.3 2535 23 32 330 2850 1075 927Su 148 32 45 82 305 23 64 0.51 47 84.2 31.2 325.8 4.3 422 13 80 157 551 1077 210Fr 1905 21 277 190 2042 34 298 0.77 80 77.2 29.4 68.7 12.6 2218 45 325 282 1638 1077 8 6Su 2150 17 333 55 2324 21 356 1.01 t 6 91.9 33.2 25.0 -15.4 2459 20 19 261 1906 1078 130Tu 1927 27 280 144 2121 42 307 1.57 t50 80.2 30.2 58.7 15.7 2315 52 344 312 1616 1079 120Su 329 34 73 16 432 25 86 0.33 26 86.4 31.9 310.3 18.1 535 16 98 306 727 10801129Su 2058 49 302 158 2227 58 332 0.80 84 89.2 32.7 36.5 23.2 2356 60 11 227 1503 10811119Fr 656 2 121 44 848-10 143 1.63 t50 82.8 31.0 240.1 20.8 1040-17 168 264 713 1082 514Sa 2209 15 341 144 2338 17 2 0.82 86 89.9 32.6 19.2 -19.5 2508 14 23 228 2745 108211 8Tu 1051-21 173 19 1155-21 188 0.29 21 77.8 29.6 192.9 17.6 1258-18 203 333 1555 1084 324Su 2153 28 330 92 2324 32 355 0.84 87 87.5 32.0 24.8 -4.7 2456 30 21 308 1751 1084 916Mo 2331 37 2 113 2453 35 27 0.62 61 86.2 31.7 359.6 0.7 2615 27 49 183 2940 1085 314Fr 600 -3 94 81 753-20 117 1.50 t48 81.0 30.3 258.7 0.3 947-33 144 256 539 1085 9 6Sa 1250-40 207 85 1437-30 235 1.76 t49 91.7 33.2 154.8 -4.2 1623-15 258 293 1802 1086 3 3Tu 839-21 129 147 923-26 139 0.13 7 77.5 29.4 237.4 5.3 1007-29 151 202 609 1086 827Th 605-13 91 346 715-23 104 0.47 42 92.4 33.4 266.3 -8.9 825-32 120 270 435 1088 111Tu 106 54 34 39 235 44 62 0.81 84 88.2 32.4 339.1 20.4 405 31 82 270 747 1088 7 6Th 1536-36 260 150 1724-20 281 1.14 t30 79.3 29.8 114.8 -21.7 1913 -5 301 279 1952 10881230Sa 1523 -2 230 128 1708 12 249 1.67 t48 92.2 33.5 120.0 22.7 1853 27 268 307 1535 1089 625Mo 1618-31 271 111 1807-15 290 1.12 t28 78.3 29.5 103.7 -23.6 1956 -1 310 325 2004 10891220Th 730 3 127 104 837 -5 140 0.43 37 90.4 33.0 246.3 24.3 945-10 153 199 752 1091 5 5Mo 2212 18 341 170 2326 20 359 0.52 48 91.3 33.0 22.5 -17.2 2440 18 16 234 1855 10911030Th 511 12 98 342 634 1 113 0.52 48 77.3 29.5 273.0 15.1 756-10 130 263 639 1092 424Sa 1432-38 241 149 1618-24 265 1.87 t50 92.9 33.4 129.6 -15.0 1804 -9 285 331 1909 10921018Mo 409 19 84 25 606 2 106 1.81 t53 78.7 29.8 279.7 12.0 803-13 130 216 621 1093 414Th 651-23 99 32 806-33 115 0.52 48 89.0 32.4 252.6 -12.2 922-43 134 315 421 1095 222Th 241 34 55 125 415 21 76 0.71 73 77.4 29.4 315.1 8.6 548 6 94 223 633 1095 818Sa 537-11 83 354 708-24 100 0.89 93 91.6 33.1 268.7 -11.9 839-36 121 243 420 1096 211Mo 322 31 68 74 517 14 91 1.61 t50 80.5 30.3 299.7 12.1 711 -3 112 268 652 1096 8 6We 1858 -1 295 113 2047 13 317 1.49 t46 86.0 31.6 64.2 -14.7 2236 21 342 245 1902 1097 130Fr 1152-23 181 60 1257-22 197 0.36 30 86.8 32.0 184.4 15.0 1402-18 213 7 1647 10981211Sa 544 16 108 89 712 4 123 0.79 83 88.9 32.6 266.5 24.1 841 -6 140 214 750 1099 6 5Su 1708-22 281 115 1857 -7 300 1.36 t42 84.0 31.0 90.1 -23.4 2046 5 321 309 1957 10991130We 1520 0 232 114 1712 14 253 1.64 t50 82.4 30.9 115.3 22.6 1904 31 273 317 1521 1100 525Fr 525-17 76 83 659-31 93 0.96 98 90.3 32.7 269.2 -21.5 834-44 114 206 316 11001118Su 1849 28 274 69 1954 38 288 0.31 23 77.6 29.6 73.6 20.2 2100 47 304 354 1529 1102 4 5Sa 536 -8 85 31 704-21 102 0.74 76 87.2 31.9 269.0 -8.8 832-33 121 292 442 1102 928Su 734-16 120 84 852-25 138 0.56 54 86.5 31.8 238.9 5.0 1011-31 158 195 536 1103 325We 1323-38 214 135 1517-25 243 1.59 t50 80.8 30.3 146.9 -4.0 1711 -9 266 318 1813 1103 917Th 2057 28 317 96 2243 36 346 1.83 t50 91.8 33.3 32.3 0.1 2429 36 18 243 1726 1104 313Su 1543-18 245 204 1639-10 256 0.21 14 77.6 29.4 127.5 1.0 1734 -2 267 264 1747 1104 9 6Tu 1359-34 226 54 1514-25 244 0.55 52 92.2 33.3 145.7 -4.7 1629-15 259 335 1805 1106 121Su 942-16 149 45 1111-20 170 0.80 83 88.6 32.5 210.8 17.8 1240-20 192 322 716 1106 717Tu 2215 15 340 124 2400 17 5 0.99 100 79.1 29.7 16.2 -19.7 2544 13 29 217 2755 ------------------------------------------------------------------------------------------Table 1 - page 5 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1107 111Fr 013 58 13 93 158 49 51 1.68 t48 92.3 33.5 348.5 21.0 343 35 77 230 753 1107 7 6Sa 2242 14 347 79 2434 14 13 1.28 t40 78.4 29.5 7.3 -22.4 2627 7 38 261 2733 11071231Tu 1618 6 240 177 1726 15 252 0.43 37 90.2 32.9 115.5 23.4 1834 24 264 263 1530 1109 516Su 549-19 82 120 655-29 94 0.39 33 91.6 33.0 270.2 -19.7 801-38 107 196 333 110911 9Tu 1305-17 206 39 1425-10 223 0.49 44 77.1 29.4 155.4 18.2 1546 0 239 331 1548 1110 5 5Th 2210 17 341 128 2356 19 6 1.75 t49 92.9 33.4 14.8 -18.0 2542 13 31 267 2750 11101029Sa 1202-23 192 72 1358-15 219 1.77 t52 78.9 29.9 161.5 15.6 1555 -1 243 283 1602 1111 425Tu 1417-41 238 105 1539-30 257 0.63 62 88.7 32.3 139.1 -15.7 1700-19 274 15 1914 11111018We 1750 14 269 144 1913 26 285 0.61 60 84.7 31.4 82.8 12.5 2036 38 304 233 1616 1113 828Th 1330-41 219 50 1457-31 242 0.79 83 91.2 33.0 150.6 -8.0 1625-18 260 315 1824 1114 221Sa 1110-30 170 106 1304-28 201 1.67 t51 80.9 30.4 182.4 8.1 1458-19 229 331 1724 1114 818Tu 219 16 43 47 409 3 66 1.59 t49 85.5 31.5 312.9 -11.2 600-12 87 197 435 1115 210We 2009 30 292 100 2117 38 309 0.40 34 87.3 32.1 59.3 11.5 2225 45 329 6 1638 11161221Th 1430 -6 219 159 1559 4 236 0.79 82 88.6 32.5 136.4 24.0 1727 15 252 283 1524 1117 616Sa 006 13 8 59 152 7 31 1.22 t35 84.5 31.1 347.0 -23.9 338 -3 52 252 315 11171210Mo 2344 61 7 83 2537 52 51 1.64 t50 82.1 30.8 350.3 23.4 2729 37 80 239 3156 11181130Sa 251 40 72 354 357 30 86 0.32 24 77.5 29.5 314.0 21.9 503 20 99 284 737 112010 8Fr 1545 -8 246 154 1701 3 260 0.51 48 86.7 31.9 116.2 9.3 1817 15 275 246 1637 1121 4 4Mo 2034 18 313 138 2229 27 341 1.70 t52 80.6 30.2 37.8 -8.2 2425 28 13 274 1812 1121 928We 512 4 91 35 659-11 112 1.87 t50 91.9 33.3 267.6 4.5 845-24 135 226 539 1122 324Fr 2239 32 342 175 2345 34 1 0.31 23 77.6 29.4 20.2 -3.4 2450 32 20 219 2925 1122 917Su 2202 33 334 45 2320 37 357 0.62 61 91.9 33.3 23.1 -0.3 2439 35 21 282 1728 1124 2 1Fr 1814 15 266 106 1942 28 283 0.78 81 89.0 32.6 83.3 14.7 2110 39 304 350 1628 1124 728Mo 458 -9 72 75 637-23 90 0.84 88 78.8 29.6 276.7 -17.1 816-37 111 190 356 1125 121We 859-11 140 80 1044-19 163 1.69 t48 92.4 33.5 217.7 18.4 1229-20 189 280 721 1125 717Fr 510-13 72 33 705-30 93 1.43 t47 78.5 29.6 269.9 -20.4 900-46 119 241 333 1126 111Mo 102 55 33 124 211 48 56 0.43 38 90.0 32.9 345.3 21.6 320 39 73 187 756 11271120Su 2104 48 306 57 2222 56 333 0.46 41 77.0 29.4 36.9 20.6 2341 58 6 298 1528 1128 516We 544-19 81 76 729-35 101 1.62 t48 92.8 33.4 261.4 -20.4 915-49 126 247 326 112811 8Th 2003 38 293 103 2159 52 326 1.74 t52 79.0 29.9 41.8 18.7 2355 56 13 244 1538 1129 5 5Su 2136 14 333 92 2303 18 353 0.75 77 88.4 32.2 27.7 -18.7 2431 17 14 318 1905 11291029Tu 205 40 58 74 330 29 78 0.65 65 85.0 31.5 318.4 16.2 454 16 95 167 654 1131 315Su 1727 -3 267 201 1852 10 283 0.56 54 77.7 29.5 94.2 0.1 2017 21 301 287 1745 1131 9 8Tu 2130 27 326 43 2254 33 348 0.70 72 90.9 33.0 30.7 -3.9 2417 33 13 272 1754 1132 3 3Th 1851 13 281 153 2046 28 306 1.74 t52 81.3 30.5 66.4 3.9 2240 38 337 316 1720 1133 221Tu 418 19 77 32 530 8 91 0.46 41 87.7 32.2 295.6 7.5 642 -3 104 310 623 1133 817Th 1631-19 264 162 1728-10 275 0.24 16 79.4 29.9 112.9 -10.6 1826 -2 286 220 1836 1135 1 1Tu 2314 60 347 147 2442 58 26 0.78 81 88.4 32.5 6.8 22.9 2610 49 56 215 3201 11351222Su 808 -3 134 64 1001-12 157 1.65 t50 81.8 30.7 225.8 23.3 1154-16 182 287 745 1136 615Mo 1959 1 313 134 2140 10 333 1.24 t35 90.9 32.9 49.9 -23.2 2322 14 356 247 1952 11361210Th 1054-15 171 33 1202-16 187 0.33 25 77.4 29.5 194.0 22.7 1309-13 202 343 1536 1138 426Tu 2044 12 320 80 2200 18 337 0.51 47 86.5 31.7 43.7 -16.3 2316 20 355 332 1856 11381020Th 004 49 18 112 118 44 42 0.48 44 87.0 32.0 351.5 13.2 231 35 62 174 642 1139 416Su 337 6 60 73 533-10 82 1.81 t53 80.4 30.1 291.2 -12.1 729-28 105 246 424 113910 9Mo 1336-24 217 98 1522-12 241 1.82 t49 92.0 33.3 141.0 8.7 1708 4 261 290 1643 1140 4 4Th 526 -5 84 119 642-17 98 0.42 36 77.7 29.4 275.0 -7.5 757-27 114 202 453 1140 928Sa 612 -6 102 356 734-17 119 0.68 68 91.7 33.2 258.9 4.0 856-26 137 268 535 1142 212Th 241 35 57 37 407 23 76 0.75 78 89.3 32.6 316.9 11.0 534 11 93 283 647 1143 2 1Mo 1740 10 259 146 1925 25 279 1.72 t49 92.4 33.5 87.6 15.2 2111 40 303 310 1625 1144 122Sa 942-15 149 130 1052-19 165 0.45 40 89.8 32.8 215.8 19.0 1202-20 182 232 725 1144 716Su 1653-24 275 63 1748-16 284 0.23 15 83.4 30.9 109.4 -21.1 1842 -9 294 1 1949 1145 6 6We 2106 8 326 189 2146 11 335 0.14 7 92.1 33.2 48.1 -22.3 2226 13 343 222 1942 114512 1Sa 505 20 100 348 622 9 114 0.44 39 77.0 29.4 277.9 22.2 740 -1 128 276 735 11461120We 409 27 89 29 604 10 111 1.72 t52 79.2 30.0 281.2 21.1 800 -4 133 228 723 1147 517Sa 449-12 70 37 622-25 87 0.87 91 88.1 32.1 278.0 -21.1 755-39 105 280 322 114711 9Su 1029-19 168 101 1154-19 188 0.67 68 85.3 31.6 192.7 19.3 1320-15 208 228 1542 1149 326Sa 038 32 18 156 157 26 39 0.46 42 77.9 29.5 347.0 -4.1 316 17 57 220 517 1149 919Mo 538 -3 92 341 658-14 108 0.63 62 90.6 32.9 268.7 0.4 818-24 126 253 520 1150 315We 224 27 48 92 418 12 73 1.82 t52 81.8 30.5 312.3 -0.3 613 -6 95 262 538 1150 9 8Fr 1721 -5 271 101 1913 12 293 1.78 t51 84.6 31.3 85.5 -3.2 2105 26 317 263 1751 1151 3 4Su 1222-34 192 80 1337-31 213 0.52 49 88.1 32.3 173.1 3.3 1453-23 231 14 1747 1151 828Tu 2321 30 357 118 2429 29 16 0.35 27 79.1 29.8 7.0 -6.8 2537 25 34 167 2907 1153 112Mo 755 -2 128 112 923-11 145 0.76 79 88.1 32.4 237.7 21.0 1050-17 165 242 741 1153 7 7Tu 1413-49 240 81 1550-35 263 0.94 97 85.2 31.3 138.5 -22.3 1728-21 281 325 1959 1154 1 1Fr 1629 7 243 134 1823 22 263 1.65 t50 81.5 30.6 101.5 22.2 2016 39 286 329 1534 1154 627Su 319 -1 50 65 503-14 69 1.38 t41 91.2 32.9 299.8 -22.8 647-28 88 202 314 11541221Tu 1857 29 271 86 2006 39 285 0.34 27 77.3 29.5 74.4 22.7 2114 49 302 7 1522 1155 616Th 2138 10 333 178 2204 12 338 0.06 2 93.1 33.4 44.0 -22.5 2230 13 344 199 1946 1156 5 7Mo 409 -5 63 11 517-14 75 0.38 31 86.2 31.6 294.5 -19.3 624-24 88 291 335 11561030Tu 831-13 139 102 943-19 156 0.46 41 87.3 32.1 225.3 16.8 1055-21 173 205 638 11571019Sa 2207 47 334 94 2353 49 12 1.78 t49 92.0 33.4 12.9 12.7 2539 42 47 226 3045 115810 9Th 1432-18 230 64 1556 -7 248 0.72 74 91.4 33.2 132.8 8.2 1720 5 264 330 1646 ------------------------------------------------------------------------------------------Table 1 - page 6 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1160 818Th 1845 2 290 154 2011 13 308 0.58 56 78.3 29.6 72.4 -10.2 2137 22 327 231 1832 1161 212Su 214 39 50 80 359 25 74 1.76 t49 92.5 33.5 319.0 11.5 545 10 95 243 651 1161 8 7Mo 1827 -5 289 110 2025 10 312 1.71 t53 78.7 29.6 69.7 -14.6 2222 20 339 274 1900 1162 2 1Th 1815 16 265 191 1927 26 279 0.47 42 89.6 32.7 87.5 15.7 2038 36 294 270 1623 1162 727Fr 2342 18 1 26 2450 17 17 0.37 30 83.7 31.0 3.8 -18.4 2557 13 33 293 2803 1163 618Tu 503-14 70 141 511-15 71 0.01 0 92.3 33.2 297.4 -22.5 520-16 73 150 317 11631212Th 1309-13 203 48 1426 -7 219 0.43 38 76.9 29.4 158.4 22.8 1542 1 234 345 1530 1164 6 6Sa 2045 6 322 140 2227 12 344 1.35 t40 92.6 33.3 37.9 -23.0 2409 13 7 257 1945 11641130Mo 1221-15 193 83 1416 -8 218 1.71 t52 79.4 30.1 159.4 22.7 1611 6 240 297 1525 11651119Fr 1859 31 275 153 2025 43 294 0.69 70 85.6 31.7 65.9 21.7 2151 54 319 241 1520 1167 930Sa 1352-26 222 41 1508-17 239 0.56 54 90.2 32.8 145.3 4.7 1625 -7 254 322 1707 1168 919Th 102 34 30 43 255 22 59 1.84 t52 84.1 31.2 329.2 1.1 447 7 82 204 537 1169 314Fr 2016 21 303 107 2136 30 323 0.60 58 88.6 32.4 52.6 -1.0 2256 35 345 351 1738 1169 9 8Mo 622-12 99 73 738-22 115 0.44 39 78.8 29.7 258.9 -2.6 854-31 133 165 505 1171 123Sa 1630 2 243 183 1757 14 259 0.74 77 87.8 32.3 109.8 18.3 1924 27 276 295 1610 1171 718Su 2125 11 328 57 2257 16 349 0.80 84 85.6 31.5 32.2 -20.4 2429 16 11 279 1938 1172 113Th 046 56 27 85 240 43 63 1.67 t51 81.2 30.5 338.2 20.3 434 27 87 253 742 1173 1 1Mo 259 41 70 11 408 31 85 0.35 28 77.2 29.5 314.9 21.6 518 20 98 297 746 1173 627We 445-11 67 107 531-17 75 0.19 12 93.0 33.4 292.5 -22.1 618-24 83 154 317 11741110Su 1705 12 255 170 1815 23 268 0.44 39 87.5 32.2 97.6 19.9 1926 33 282 252 1531 1175 5 7We 1720-17 280 131 1915 0 302 1.59 t51 80.0 29.9 84.9 -18.7 2111 12 325 308 1919 11751031Fr 646 -1 117 47 831-13 139 1.75 t49 92.1 33.4 243.4 16.3 1017-21 163 244 638 1176 425Su 1840 -2 293 177 2012 9 311 0.68 68 78.0 29.4 71.1 -15.0 2144 18 332 261 1854 11761019Tu 2259 49 353 43 2424 47 23 0.75 78 91.1 33.1 5.3 12.2 2550 40 50 264 3041 1178 3 5Su 1916 15 287 103 2038 26 305 0.66 66 90.1 32.8 68.0 2.6 2200 34 326 348 1727 1178 830We 149 24 38 99 307 15 56 0.46 41 78.1 29.5 327.5 -6.2 425 5 72 169 502 1179 223Fr 1042-29 162 98 1227-31 191 1.80 t49 92.6 33.5 191.5 7.4 1413-25 218 307 1732 1179 819Su 119 22 28 58 316 11 55 1.82 t53 78.8 29.7 326.3 -10.9 513 -5 78 217 439 1180 213We 241 36 57 121 354 26 74 0.50 46 89.3 32.7 320.4 12.0 508 16 88 199 654 1180 8 7Th 643-23 93 351 759-34 109 0.49 45 84.0 31.1 256.2 -15.2 916-44 128 274 402 11811222Tu 2112 49 303 71 2227 57 328 0.42 36 76.9 29.4 39.3 22.6 2343 60 0 318 1522 1182 618Fr 414 -8 61 80 554-22 79 1.22 t33 92.4 33.3 286.7 -23.1 733-36 97 212 310 11821211Sa 2035 45 294 116 2230 58 331 1.70 t51 79.6 30.1 37.2 23.4 2425 60 22 253 1512 1183 6 7Tu 1904 -6 303 111 2046 5 322 1.14 t28 87.3 31.9 62.9 -23.7 2228 12 344 312 1955 118312 1Th 333 34 83 75 500 22 99 0.71 72 85.9 31.8 298.3 23.4 626 10 115 183 747 1185 416Tu 1447-35 242 210 1545-27 255 0.24 16 78.3 29.5 138.6 -11.9 1643-19 267 274 1851 11851010Th 2214 43 337 30 2327 46 1 0.51 47 89.8 32.8 20.0 8.8 2441 44 26 274 3029 1186 4 5Sa 1712-11 271 161 1905 6 293 1.67 t51 82.7 30.7 88.9 -8.6 2058 19 317 317 1824 1187 326Th 405 9 69 45 529 -4 85 0.69 70 89.0 32.5 293.5 -5.2 653-16 101 301 507 1187 919Sa 1332-31 218 128 1454-22 237 0.52 49 78.5 29.7 149.0 1.6 1616-10 254 232 1722 1189 2 3Fr 100 50 27 136 226 41 54 0.71 73 87.6 32.2 342.7 15.0 352 29 74 219 712 1189 729Sa 444 -7 68 352 610-19 84 0.68 69 85.9 31.6 284.0 -17.8 736-32 101 248 351 1190 123Tu 858-12 139 82 1052-20 165 1.69 t51 81.0 30.5 215.8 17.6 1246-21 193 305 720 1190 718We 1810-12 289 117 1956 2 309 1.65 t48 91.7 33.1 77.1 -19.7 2142 13 330 263 1936 1191 112Sa 1057-18 168 47 1208-19 185 0.37 30 77.2 29.4 195.9 19.8 1319-16 202 355 1613 1192 528Th 1856 -7 301 55 1931 -3 307 0.09 4 85.5 31.4 81.3 -23.5 2006 1 314 12 1955 11921121Sa 143 49 55 102 253 40 73 0.44 38 87.8 32.3 329.1 22.2 403 30 88 175 740 1193 518Tu 001 16 8 78 156 9 34 1.44 t47 79.7 29.9 344.9 -21.1 350 -3 57 254 329 11931110We 1530 -1 237 119 1715 13 257 1.73 t49 92.1 33.4 112.8 19.3 1901 29 276 298 1537 1194 5 7Sa 109 16 25 117 248 7 47 0.82 86 78.1 29.4 331.8 -18.0 427 -5 66 209 349 11941031Mo 732 -8 126 12 858-16 144 0.78 81 90.8 33.1 236.7 15.7 1025-22 165 285 634 1196 316Sa 323 18 61 32 442 7 77 0.59 58 90.5 32.9 306.1 -1.7 600 -5 92 293 529 1197 3 5We 1901 14 284 145 2047 28 307 1.86 t50 92.7 33.5 65.9 3.1 2232 37 335 302 1724 1198 818Tu 1355-41 228 60 1518-31 248 0.61 60 84.3 31.2 146.0 -11.5 1642-19 265 335 1847 1200 1 3Mo 515 20 98 1 629 10 112 0.40 34 77.0 29.4 279.9 21.4 744 0 126 291 744 12001222Fr 451 24 96 42 646 8 117 1.69 t51 79.9 30.2 274.6 23.2 841 -6 139 246 752 1201 618Mo 208 6 35 54 354 -5 56 1.28 t38 86.9 31.8 316.7 -23.8 539-19 74 252 310 12011211Tu 1211-14 189 127 1338-10 208 0.72 73 86.2 31.9 170.1 24.1 1505 -2 226 254 1522 1203 427Su 2149 18 334 200 2229 20 344 0.11 5 78.5 29.6 36.9 -15.2 2309 21 354 227 1849 12031022We 641 -3 114 341 752-12 128 0.46 41 89.5 32.7 253.5 12.7 903-19 144 272 619 1204 416Fr 026 24 15 116 219 15 42 1.56 t49 83.1 30.8 339.9 -12.4 411 2 65 252 425 12041010Su 1647 2 258 96 1839 19 280 1.71 t51 83.2 31.0 91.6 9.5 2032 34 304 278 1635 1205 929Th 2052 34 314 130 2219 41 339 0.59 58 78.2 29.6 37.0 5.9 2346 43 7 195 1654 1207 214We 922-20 142 134 1047-26 162 0.67 68 87.3 32.1 217.4 11.2 1211-28 184 260 644 1208 2 3Su 1702 4 252 148 1856 20 274 1.72 t52 80.8 30.4 94.9 14.3 2050 36 299 332 1631 1208 729Tu 143 14 31 52 330 4 54 1.77 t50 91.9 33.1 323.7 -17.1 516-10 74 206 404 1209 122Th 1848 22 271 100 2002 33 286 0.40 33 77.2 29.4 78.1 17.1 2115 43 304 15 1609 1209 718Sa 1924 -1 303 155 2033 7 316 0.45 39 92.7 33.4 67.7 -19.0 2141 13 331 220 1929 121012 2Th 1025-14 165 130 1135-15 181 0.43 38 88.1 32.4 199.9 23.7 1244-13 197 232 1527 12111122Tu 019 57 26 74 204 46 60 1.72 t49 92.2 33.5 341.3 21.6 350 31 84 220 738 12121110Sa 1611 4 245 82 1739 16 261 0.79 83 90.5 33.0 107.0 18.7 1906 29 278 337 1541 1214 920Sa 1624 -8 257 167 1725 1 268 0.27 19 77.7 29.5 111.2 2.4 1827 10 280 231 1717 ------------------------------------------------------------------------------------------Table 1 - page 7 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1215 317Tu 313 20 59 75 459 5 81 1.84 t50 92.7 33.5 301.9 -1.2 645-11 101 252 532 1215 9 9We 1531-21 248 114 1727 -4 271 1.60 t51 79.0 29.8 111.9 -2.6 1923 14 294 280 1748 1216 3 5Sa 1905 14 284 187 2024 25 301 0.59 58 88.9 32.5 71.7 3.6 2144 34 321 268 1724 1216 828Su 2117 23 323 57 2246 29 346 0.72 74 84.6 31.3 33.3 -7.5 2414 29 10 284 1813 1218 113Sa 1314-17 201 58 1427-11 218 0.38 32 77.1 29.4 161.5 19.4 1539 -4 233 0 1609 1218 7 9Mo 1915 -4 302 150 2047 7 320 0.94 97 92.0 33.1 64.3 -21.0 2220 14 340 249 1942 1219 1 2We 1305-14 200 101 1500 -5 224 1.68 t51 80.2 30.3 152.2 22.1 1655 9 246 314 1545 12191222Su 2050 47 296 162 2217 57 323 0.72 74 86.6 32.0 41.7 23.9 2344 61 0 230 1511 122111 1Mo 1514 -6 236 49 1623 3 249 0.43 37 89.1 32.6 125.8 16.1 1732 13 261 337 1559 12221022Sa 050 46 34 39 243 33 65 1.67 t50 82.7 30.9 330.5 13.4 435 17 89 211 640 1223 416Su 1922 5 300 117 2054 15 320 0.90 93 89.8 32.6 60.7 -13.1 2226 22 342 338 1839 12231011We 421 15 85 64 551 3 102 0.65 65 78.0 29.6 283.3 10.0 722-10 120 170 610 1225 224Mo 1737 4 263 198 1859 15 279 0.62 61 87.0 32.0 93.7 7.1 2021 27 297 290 1711 1225 819Tu 1945 9 303 46 2057 17 318 0.46 41 86.6 31.8 61.2 -11.0 2210 23 336 307 1840 1226 214Sa 058 46 26 99 253 34 58 1.76 t52 80.6 30.3 335.5 10.6 448 17 83 261 644 1227 2 3We 233 39 56 33 349 29 74 0.43 38 77.2 29.4 321.3 13.9 506 17 89 305 702 1227 730Fr 253 8 47 85 409 0 62 0.56 54 92.6 33.3 313.7 -16.3 525-11 77 165 405 12281212Tu 1909 33 273 187 2018 43 287 0.43 38 88.4 32.5 70.3 24.3 2128 52 306 258 1505 122912 2Su 911-10 149 75 1056-15 172 1.71 t48 92.2 33.5 209.5 23.1 1241-14 196 276 728 1230 528Tu 1357-49 238 148 1547-34 263 1.13 t29 78.3 29.5 137.5 -22.2 1736-18 284 289 1953 12301122Fr 055 53 39 27 223 43 65 0.80 84 90.3 33.0 336.7 21.0 351 31 84 260 733 1232 4 6Tu 1921 7 298 89 2029 15 312 0.43 38 91.2 33.0 67.4 -10.2 2138 21 328 356 1827 1232 930Th 2355 43 12 129 2448 41 29 0.19 12 77.5 29.4 359.7 6.7 2541 36 44 164 3007 1233 919Mo 2253 38 350 88 2448 36 26 1.52 t49 79.1 29.9 0.8 1.7 2643 25 56 212 2944 1234 317Fr 303 22 57 117 426 10 74 0.66 66 88.6 32.4 310.3 -0.7 549 -2 90 210 536 1234 9 9Sa 450 2 80 1 622-11 98 0.81 85 84.9 31.4 278.2 -3.3 755-24 117 253 506 1236 124Th 2110 42 304 79 2220 50 325 0.36 29 77.2 29.4 43.6 16.6 2331 54 351 339 1609 1236 720Su 248 7 45 90 416 -4 62 0.81 84 91.7 33.1 312.2 -18.7 544-16 78 188 350 1237 112Mo 2119 47 305 124 2313 57 345 1.67 t51 80.5 30.3 29.9 20.1 2508 54 31 262 1543 1237 7 9Th 1617-30 268 118 1807-14 289 1.56 t48 86.1 31.6 104.5 -21.6 1956 1 309 306 1952 1238 1 2Sa 528 19 102 89 655 7 117 0.74 76 86.9 32.1 273.4 22.7 823 -4 134 207 752 1238 629Tu 044 12 15 3 111 11 21 0.05 2 80.2 30.0 358.0 -23.8 138 9 27 329 320 12391112Sa 2352 55 13 11 2459 51 38 0.40 34 88.8 32.5 357.3 19.0 2606 44 58 270 3126 1240 5 7Mo 1443-40 247 164 1631-25 270 1.31 t40 84.0 31.0 126.0 -18.6 1819 -9 290 310 1928 124011 1Th 859-16 146 40 1051-22 172 1.63 t50 82.3 30.8 208.4 16.8 1244-19 200 267 634 1241 427Sa 252 8 49 57 428 -5 68 1.02 t10 90.2 32.7 306.8 -16.4 604-19 85 281 356 12411021Mo 1200-24 191 110 1332-19 214 0.70 71 77.7 29.6 167.8 13.9 1505 -9 234 238 1610 1243 3 8Su 144 34 37 142 302 25 57 0.55 53 86.8 31.9 332.3 2.9 420 15 74 218 559 1243 831Mo 328 11 60 336 434 3 74 0.36 30 86.9 31.9 306.3 -7.0 540 -7 86 257 455 1244 225Th 844-20 132 90 1039-30 160 1.82 t52 80.4 30.2 218.4 6.5 1234-32 192 306 617 1244 819Fr 1709-13 272 98 1855 3 292 1.77 t50 92.1 33.3 91.3 -10.3 2042 16 314 273 1836 1245 213Mo 1009-25 153 53 1129-28 174 0.48 44 77.3 29.4 206.2 10.1 1249-28 196 354 637 12461224Mo 355 34 85 108 504 23 98 0.43 38 88.7 32.6 300.4 23.9 613 13 111 191 800 1247 619We 1949 -1 311 85 2133 8 331 0.97 99 79.1 29.7 52.1 -23.9 2316 13 354 294 1959 12471213Fr 1805 23 261 141 1950 38 282 1.71 t48 92.2 33.5 77.3 23.6 2135 52 308 302 1511 1248 6 7Su 2020 3 317 131 2212 12 341 1.29 t41 78.5 29.5 41.5 -23.1 2405 14 6 245 1949 124812 2We 942-13 155 40 1110-16 175 0.80 84 90.0 32.9 206.0 22.4 1238-15 195 316 723 1250 418Mo 314 7 54 18 415 0 66 0.33 26 91.5 33.1 310.5 -14.0 515 -9 78 301 412 12501012We 734-12 124 111 818-17 133 0.13 7 77.3 29.4 246.7 10.9 901-21 143 164 608 1251 4 7Fr 1914 7 296 133 2059 19 319 1.67 t48 92.7 33.4 60.1 -9.7 2245 26 345 302 1823 125110 1Su 624 -6 106 48 818-21 130 1.45 t47 79.2 29.9 247.5 6.0 1011-30 158 228 544 1252 919Th 1234-36 201 54 1409-28 227 0.89 93 85.2 31.5 160.7 1.1 1544-16 248 318 1730 1254 2 4We 459 17 88 9 606 7 101 0.32 25 77.3 29.4 287.2 13.3 713 -2 114 304 659 1255 124Su 528 16 97 55 722 0 118 1.65 t51 80.9 30.4 268.2 17.3 916-14 141 263 721 1255 720Tu 2322 17 356 79 2514 15 23 1.69 t51 85.6 31.5 357.8 -19.3 2705 6 47 239 2756 1256 113Th 1404-12 213 154 1532 -3 231 0.75 78 87.3 32.2 145.3 20.7 1700 8 247 278 1559 12571123Fr 833 -9 140 358 939-14 154 0.39 32 88.4 32.5 228.0 21.1 1045-17 169 301 713 1258 518Sa 2148 13 336 143 2333 16 0 1.18 t32 84.5 31.1 20.7 -20.8 2518 13 25 249 2734 12581112Tu 1712 13 257 103 1905 30 278 1.61 t50 81.9 30.7 85.5 19.6 2057 46 304 291 1535 125911 1Sa 1945 35 290 141 2120 47 315 0.74 76 77.5 29.5 51.0 17.3 2254 54 348 219 1546 1262 3 7Tu 1621-11 252 157 1816 6 275 1.77 t52 80.2 30.1 103.4 2.3 2012 22 299 330 1736 1262 831Th 104 27 27 39 250 17 52 1.68 t48 92.2 33.3 332.0 -6.3 435 4 74 211 504 1263 224Sa 1737 3 264 112 1901 15 281 0.54 51 77.3 29.4 92.7 6.1 2025 27 299 15 1715 1263 820Mo 1809 -3 283 136 1935 9 300 0.78 81 92.1 33.2 81.1 -9.5 2101 19 318 231 1830 1265 1 3Sa 1239-15 193 163 1348-12 208 0.43 38 89.0 32.6 170.7 22.6 1457 -6 223 261 1549 1265 630Tu 225 5 38 20 402 -5 57 0.80 84 78.9 29.6 315.3 -23.2 540-18 75 252 318 12651224Th 259 41 73 65 444 26 94 1.70 t48 92.3 33.5 305.3 23.2 629 11 113 237 755 1266 619Sa 243 3 43 68 439-11 64 1.46 t48 78.6 29.6 305.6 -23.3 634-27 85 209 313 12661213Mo 1830 26 266 102 1958 39 284 0.81 84 89.7 32.8 75.4 23.0 2126 51 306 343 1516 12681022Mo 1522 -6 238 182 1557 -1 245 0.08 3 77.2 29.4 131.7 14.7 1631 4 251 220 1604 1269 418Th 303 9 53 64 448 -5 73 1.56 t46 92.7 33.4 302.3 -13.5 633-20 92 255 415 12691011Fr 1405-19 224 113 1558 -5 247 1.39 t45 79.4 30.0 131.8 10.2 1751 11 269 279 1632 ------------------------------------------------------------------------------------------Table 1 - page 8 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1270 4 7Mo 1831 1 287 176 2002 13 305 0.83 87 88.1 32.2 74.7 -9.1 2133 22 326 272 1824 1270 930Tu 2028 30 307 73 2205 40 334 0.96 98 85.5 31.6 40.7 5.4 2343 43 5 279 1655 1272 215Mo 1243-28 195 57 1346-24 212 0.28 20 77.5 29.5 171.9 9.4 1449-19 227 10 1713 1272 810We 1810 -6 285 158 1926 5 299 0.57 54 91.0 32.9 83.9 -12.5 2043 14 315 238 1848 1273 2 3Fr 1333-21 207 113 1526-10 232 1.62 t50 81.3 30.5 147.3 13.9 1720 5 255 328 1645 1273 731Mo 632-23 90 38 824-38 114 1.81 t52 85.1 31.3 250.0 -16.5 1016-51 146 239 353 1274 123Tu 2236 53 331 154 2405 55 6 0.77 80 87.7 32.3 17.6 17.9 2533 50 39 221 3137 127512 4We 1716 15 253 66 1821 24 265 0.37 31 88.1 32.4 98.7 22.4 1926 34 278 355 1524 1276 529Fr 452-13 69 90 633-27 87 1.04 t16 84.9 31.3 276.1 -22.3 814-42 108 217 316 12761123Mo 129 50 51 37 322 35 79 1.59 t49 81.6 30.6 322.1 21.8 515 19 101 223 738 1277 518Tu 1743-15 286 127 1925 -2 305 1.28 t37 90.9 32.9 82.5 -21.5 2107 8 325 327 1940 12771112Fr 337 30 83 66 513 16 101 0.76 79 77.4 29.5 293.3 20.2 649 3 119 181 716 1279 329We 1732 -6 272 209 1840 4 285 0.38 32 86.2 31.7 96.1 -5.6 1947 13 299 278 1812 1279 921Th 1925 18 293 33 2016 25 305 0.21 14 87.5 32.1 69.1 1.5 2107 31 317 328 1724 1280 317Su 2347 36 2 122 2542 29 35 1.69 t52 80.0 30.1 350.9 -2.0 2738 16 62 262 2929 1281 3 7Fr 054 37 23 64 223 29 47 0.62 61 77.4 29.4 341.5 1.9 351 18 67 306 551 1281 831Su 158 23 41 70 328 13 61 0.87 91 91.8 33.2 322.2 -5.5 457 1 79 172 504 1283 114Th 2121 47 304 192 2229 54 326 0.43 37 89.4 32.7 41.2 20.5 2338 57 353 243 1536 1284 1 4Tu 1152-17 183 112 1337-13 206 1.69 t48 92.3 33.5 173.2 21.9 1522 -4 228 309 1555 12841224Su 317 38 76 25 446 25 94 0.81 84 89.5 32.8 304.8 22.5 614 12 110 277 749 1286 5 9Th 1851 -5 298 63 1927 0 305 0.11 5 92.1 33.2 81.8 -20.3 2003 4 312 17 1930 128611 2Sa 2318 55 359 158 2343 55 9 0.04 1 77.1 29.4 15.4 18.1 2407 54 19 169 3114 12871022We 2155 48 330 110 2347 51 11 1.35 t43 79.6 30.0 14.3 14.0 2539 43 48 214 3049 1288 418Su 201 17 39 111 336 6 59 0.93 96 87.8 32.1 320.4 -12.9 511 -7 77 216 421 12881011Mo 433 13 87 9 611 -1 106 1.01 t 8 85.8 31.7 278.6 9.5 750-14 125 251 607 1290 225Sa 2021 26 299 78 2117 33 313 0.22 15 77.6 29.5 58.5 5.3 2214 38 329 7 1714 1290 822Tu 159 20 39 100 309 13 55 0.46 41 90.7 32.9 327.6 -8.7 419 4 69 169 450 1291 214We 2131 39 314 124 2324 47 350 1.59 t50 81.7 30.6 27.6 10.1 2517 44 29 276 1643 1291 811Sa 1346-44 226 106 1538-29 254 1.78 t52 84.7 31.2 141.1 -13.1 1730-13 276 292 1857 1292 2 4Mo 703 0 114 102 833-12 131 0.81 84 88.1 32.3 250.9 14.6 1002-20 151 231 703 1292 730We 1949 4 306 62 2107 12 322 0.47 43 79.3 29.8 59.5 -17.1 2226 18 340 319 1917 12931215Tu 200 49 57 357 304 40 74 0.36 29 87.8 32.3 329.2 22.7 409 31 87 277 755 129412 4Sa 949-13 157 57 1142-16 183 1.58 t49 81.2 30.6 198.2 23.0 1335-11 208 287 1529 1295 530Mo 105 11 23 73 249 3 44 1.41 t43 91.3 32.9 331.9 -22.9 433-10 64 259 315 12951123We 1135-16 183 111 1311-13 205 0.78 81 77.2 29.5 174.6 22.3 1448 -4 225 249 1525 1296 518Fr 1916 -3 304 67 1948 1 310 0.09 4 93.1 33.4 76.6 -22.2 2020 4 317 25 1943 1297 4 9Tu 116 24 28 159 214 19 42 0.28 20 85.9 31.6 341.7 -9.5 312 12 54 208 443 129710 2We 336 20 72 320 420 13 81 0.16 9 87.7 32.2 307.1 5.7 505 7 89 270 555 1298 329Sa 705-19 104 89 900-34 130 1.59 t51 79.8 30.0 240.7 -6.2 1055-44 164 281 501 1298 921Su 1717 0 268 87 1901 15 288 1.52 t45 92.3 33.4 87.5 2.2 2045 29 311 280 1719 1299 318We 803-24 119 49 936-35 141 0.71 72 77.6 29.4 232.2 -2.4 1110-41 169 330 523 1301 125We 559 12 103 125 706 2 115 0.41 35 89.7 32.8 272.5 17.6 814 -7 128 211 724 1301 721Fr 1545-34 260 63 1705-22 275 0.49 45 78.5 29.6 120.2 -19.5 1826-10 290 334 1937 1302 114Su 2041 41 294 151 2226 53 325 1.68 t48 92.3 33.5 41.9 19.8 2411 56 7 278 1540 1302 710Tu 1538-36 260 116 1736-18 282 1.78 t53 78.9 29.6 112.2 -21.2 1933 -2 304 285 1947 1303 1 4Fr 1202-17 185 73 1331-14 205 0.81 85 89.2 32.7 174.5 21.2 1500 -7 224 347 1559 1303 629Sa 2107 8 326 152 2218 13 341 0.41 35 83.9 31.0 41.1 -22.0 2329 15 357 209 1946 13041113Fr 721 -1 126 134 735 -3 129 0.01 0 77.0 29.4 257.8 20.9 750 -4 131 151 715 1305 5 9Su 1825 -8 293 118 2007 5 313 1.33 t39 92.5 33.3 72.1 -19.7 2148 13 334 311 1924 130511 2Tu 554 7 108 58 745 -7 129 1.31 t41 79.7 30.1 254.8 17.4 936-17 153 227 649 13061022Sa 1246-23 203 65 1426-14 226 1.05 t18 86.0 31.8 154.8 13.4 1605 -2 246 317 1616 1308 3 8Fr 353 16 68 7 441 10 78 0.16 9 77.8 29.5 306.9 1.0 528 3 87 316 546 1309 225Tu 524 7 90 59 716 -9 111 1.54 t48 82.1 30.7 269.1 6.0 908-23 135 271 614 1309 821Th 2106 20 321 103 2258 27 349 1.66 t50 84.2 31.1 30.5 -9.2 2450 26 20 236 1823 1310 214Sa 1524-13 234 169 1654 -1 252 0.85 89 88.5 32.4 125.2 10.7 1825 12 270 291 1700 1310 811Tu 228 13 43 9 354 4 61 0.60 59 79.0 29.7 317.2 -13.7 521 -8 78 260 423 13111226Su 1042-16 166 26 1146-17 181 0.35 28 87.5 32.2 199.9 22.1 1250-15 196 334 1551 1312 619Mo 1904 -6 301 164 2034 4 318 0.76 79 85.8 31.5 66.9 -22.8 2204 11 337 252 1953 13121214Th 1809 23 262 117 2002 40 284 1.56 t49 80.9 30.5 74.6 23.4 2155 54 315 302 1518 131312 3Mo 1935 37 280 155 2113 51 304 0.80 83 77.1 29.5 55.5 23.6 2250 60 340 240 1510 1314 530Th 229 4 40 14 319 -1 50 0.22 14 93.0 33.4 324.4 -23.6 408 -7 59 309 308 13151013Mo 1157-29 190 0 1234-27 200 0.12 6 88.0 32.3 183.1 9.8 1312-25 209 331 1639 1316 4 8Th 1411-37 232 157 1605-23 258 1.48 t48 79.7 29.9 133.6 -10.1 1800 -6 281 324 1840 131610 2Sa 136 35 43 24 319 23 68 1.46 t43 92.4 33.4 322.2 6.4 502 8 89 217 602 1317 328Mo 1502-28 242 118 1640-15 263 0.81 84 77.7 29.4 125.3 -6.6 1819 0 282 9 1820 1317 921We 1757 6 275 126 1932 20 294 1.02 t11 91.2 33.1 79.2 2.9 2107 32 317 239 1714 1319 2 5Mo 1434-16 221 192 1539 -9 235 0.39 33 90.0 32.9 144.4 14.2 1645 0 248 279 1646 1319 8 1We 2232 19 343 23 2341 20 0 0.34 27 78.3 29.5 21.1 -16.7 2450 19 17 290 1914 1320 126Sa 526 16 97 79 711 1 116 1.66 t48 92.4 33.5 271.0 16.9 856-12 136 260 718 1320 720Su 2214 15 339 81 2411 18 7 1.73 t53 79.1 29.7 13.6 -19.0 2608 12 35 231 2802 1321 114We 2043 41 296 110 2213 51 322 0.82 86 89.0 32.6 44.9 19.0 2342 56 356 326 1546 1321 710Fr 356 -3 58 85 516-14 73 0.55 53 84.3 31.1 297.0 -20.6 636-25 87 168 334 ------------------------------------------------------------------------------------------Table 1 - page 9 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1323 521Sa 159 8 35 51 339 -3 55 1.20 t32 92.3 33.2 319.3 -21.9 518-16 73 256 320 13231113Su 1400-11 218 123 1550 2 240 1.29 t40 79.9 30.2 134.1 20.2 1740 17 260 286 1533 1324 5 9We 1640-23 273 160 1822 -8 292 1.17 t30 87.2 31.9 98.3 -19.1 2005 4 311 285 1926 132411 1Th 2108 46 312 83 2248 53 347 1.08 t22 86.3 31.9 29.2 16.8 2428 52 26 268 1544 1326 912Fr 1757 4 276 168 1853 12 287 0.27 19 89.9 32.7 89.8 -0.3 1949 19 299 226 1732 1327 3 8Su 1308-34 206 112 1500-23 234 1.48 t47 82.5 30.8 152.4 1.6 1651 -9 258 336 1748 1327 9 2We 431 4 75 45 622-13 97 1.56 t49 83.7 31.0 278.5 -5.1 814-28 120 212 458 1328 225Th 2337 44 357 140 2510 41 27 0.90 94 88.9 32.5 0.8 6.6 2642 32 53 227 3024 1330 1 5Fr 1923 31 276 80 2026 40 290 0.34 27 87.2 32.1 70.9 20.6 2129 48 306 1 1543 1330 7 1Su 214 7 37 107 337 -1 53 0.63 62 86.2 31.6 321.6 -21.9 500-12 68 189 329 13301226We 228 46 64 44 422 29 89 1.55 t49 80.6 30.4 311.1 22.8 615 13 110 240 755 1331 620Th 1549-35 265 129 1736-20 285 1.69 t49 91.8 33.1 111.5 -23.5 1922 -5 304 312 2007 13311215Su 338 35 83 76 516 21 102 0.81 84 77.0 29.4 296.1 24.0 654 7 119 196 757 1333 430Fr 1636-22 269 231 1657-19 273 0.03 1 85.2 31.4 120.0 -16.3 1718-16 277 252 1914 13331023Sa 2024 37 301 25 2056 41 309 0.08 3 88.2 32.4 57.5 13.5 2128 44 319 343 1611 1334 419Tu 2111 17 324 152 2303 23 352 1.36 t44 79.5 29.9 28.5 -13.7 2456 21 21 267 1838 13341013Th 1002-27 159 36 1144-28 186 1.41 t42 92.4 33.5 195.4 10.5 1326-23 212 278 1634 1335 4 8Sa 2153 23 333 104 2336 26 0 0.93 96 77.9 29.4 20.6 -10.6 2519 22 27 310 2837 133510 3Tu 208 32 53 57 345 19 75 1.08 t21 90.9 33.0 315.3 7.2 522 6 94 179 603 1337 215Sa 2302 47 343 182 2405 47 5 0.36 29 90.4 32.9 17.8 10.3 2508 44 26 227 3045 1337 812Tu 529-10 80 324 624-18 90 0.21 13 78.1 29.5 280.0 -13.3 719-26 101 268 418 1338 2 5Th 1406-18 215 144 1550 -8 238 1.64 t47 92.4 33.5 141.4 13.4 1735 6 258 326 1649 1338 8 1Sa 456 -8 72 22 652-24 94 1.59 t51 79.2 29.8 273.2 -16.2 848-40 120 220 400 1339 126Tu 519 16 95 39 649 3 111 0.84 87 88.7 32.5 276.2 16.1 820 -9 129 296 713 13411123Fr 2212 57 329 124 2401 59 16 1.28 t39 80.2 30.3 12.3 22.3 2551 49 56 217 3147 1342 520Mo 2350 16 5 108 2536 11 29 1.30 t39 86.8 31.8 350.0 -21.3 2721 1 51 225 2730 13421113We 538 12 106 20 718 -2 124 1.11 t24 86.6 32.0 262.3 19.6 858-12 145 265 707 1344 923Th 207 30 50 108 255 24 61 0.19 12 89.5 32.6 328.3 4.1 343 18 72 153 550 1345 318Fr 2046 24 312 121 2236 33 340 1.40 t44 83.0 30.9 37.3 -2.7 2426 33 13 294 1746 1345 912Mo 1203-39 192 92 1354-31 223 1.46 t46 83.3 30.9 164.7 -0.8 1545-17 248 275 1741 1346 3 8We 744-17 116 103 918-28 138 0.96 98 89.3 32.6 237.8 2.2 1053-35 163 248 549 1346 9 1Fr 1608-18 257 77 1746 -4 276 0.83 86 78.4 29.6 107.9 -5.8 1924 11 295 320 1808 1348 117Th 400 30 80 3 501 21 92 0.32 25 86.9 32.0 302.9 18.3 603 12 104 295 729 1349 1 5Mo 1044-16 166 76 1237-17 192 1.54 t49 80.4 30.3 188.3 21.3 1431-10 217 307 1558 1349 630Tu 2314 14 355 91 2501 12 19 1.83 t50 92.0 33.2 0.7 -22.5 2648 4 42 244 2731 13491225Fr 1139-15 180 122 1317-12 202 0.82 86 77.0 29.4 177.0 23.4 1456 -5 223 264 1535 1350 620Su 1702-25 279 87 1813-15 292 0.48 44 92.8 33.4 102.0 -24.1 1925 -6 305 354 2011 135111 4Fr 458 16 96 314 526 12 101 0.06 2 88.5 32.5 290.2 16.8 553 8 106 286 654 1352 430Mo 401 -1 63 97 551-17 83 1.22 t36 79.3 29.8 286.2 -16.9 742-33 105 234 354 13521023Tu 1836 22 277 88 2017 37 299 1.37 t40 92.4 33.5 66.9 14.2 2159 48 328 281 1606 1353 419Fr 437 -4 71 54 624-20 91 1.05 t19 78.0 29.5 278.1 -14.2 811-36 113 284 411 13531013Su 1028-27 167 78 1206-27 192 1.12 t25 90.6 33.0 189.6 11.2 1344-20 217 242 1628 1355 227Fr 726-10 114 140 825-18 126 0.31 24 90.7 33.0 252.1 6.1 924-25 139 219 615 1356 216Tu 2239 45 336 141 2423 46 12 1.60 t47 92.4 33.5 12.9 9.5 2608 38 44 263 3039 1357 2 5Su 1348-21 211 102 1519-12 232 0.86 90 88.5 32.4 148.8 12.7 1651 0 250 4 1653 1357 731Mo 1754-11 283 139 1928 3 301 0.83 87 85.0 31.3 84.0 -15.6 2101 13 320 237 1909 1359 611Tu 1700-25 279 97 1832-12 296 0.93 96 92.0 33.1 97.0 -24.0 2004 0 312 325 2006 135912 5Th 627 9 116 72 816 -4 136 1.27 t38 80.4 30.3 249.8 23.5 1006-13 159 241 742 13601123Mo 1412 -8 219 88 1553 3 239 1.12 t26 86.9 32.1 134.5 21.6 1733 17 257 331 1528 1363 330Th 418 5 71 55 606-11 91 1.32 t41 83.5 31.0 284.0 -7.0 754-26 113 269 456 1363 923Sa 1943 23 297 120 2132 35 324 1.38 t43 82.8 30.8 49.2 3.5 2322 41 358 239 1707 1364 318Mo 1542-20 247 169 1719 -6 267 1.04 t15 89.7 32.7 116.8 -2.1 1856 8 285 297 1800 1364 911We 2311 35 355 46 2453 33 25 0.92 95 78.2 29.6 0.2 -1.5 2635 23 52 253 2930 1366 127Tu 1232-23 191 52 1332-20 206 0.30 22 86.6 31.9 175.8 15.3 1431-15 219 3 1642 1366 722We 1650-22 272 175 1756-13 284 0.37 30 86.9 31.8 107.1 -17.8 1902 -3 296 243 1926 1367 116Sa 1856 25 272 129 2050 41 296 1.52 t48 80.2 30.2 65.9 19.0 2243 53 331 306 1557 1368 1 5We 1939 34 279 167 2119 48 303 0.84 87 77.0 29.4 58.0 22.0 2258 58 337 257 1533 1368 7 1Sa 022 13 11 39 141 9 28 0.62 61 92.6 33.3 350.8 -23.2 259 3 44 283 324 13691114We 1337-14 212 16 1401-12 217 0.05 2 88.7 32.5 161.8 19.4 1426 -9 222 356 1544 137011 4Mo 315 31 76 13 456 17 96 1.34 t39 92.4 33.5 297.3 17.5 637 3 115 230 659 13711024Fr 1854 26 281 126 2033 40 303 1.16 t29 90.2 32.9 62.6 15.0 2212 50 332 241 1601 1373 3 9We 1542-17 244 212 1637-10 255 0.26 18 91.0 33.0 128.4 1.8 1731 -2 266 277 1745 1374 227Mo 704 -8 109 93 848-22 131 1.55 t46 92.4 33.4 246.1 5.4 1032-31 157 275 610 1374 822Tu 1844 2 290 83 2037 17 313 1.34 t43 79.5 29.9 65.9 -9.1 2229 26 340 270 1827 1375 216Fr 2209 42 326 106 2342 46 357 0.90 93 88.2 32.3 22.9 8.8 2515 42 28 312 1644 1375 812Su 106 21 24 79 243 13 47 0.96 98 85.3 31.4 334.6 -12.3 421 2 67 180 434 1377 622Mo 029 12 13 37 156 7 31 0.79 82 91.7 33.1 346.7 -23.9 323 -1 49 266 317 13771215Tu 1446 -4 223 142 1635 9 243 1.26 t38 80.7 30.4 126.5 23.8 1824 24 263 301 1521 1378 611Fr 1358-51 238 129 1548-35 264 1.57 t49 86.0 31.5 137.9 -23.4 1739-19 284 296 2005 137812 4Sa 2251 59 343 79 2432 58 27 1.13 t27 87.2 32.1 5.9 22.8 2612 47 61 260 3153 1379 531Tu 2219 13 343 176 2250 14 350 0.06 2 80.1 30.0 31.9 -22.0 2321 15 357 197 1938 13801014Su 1849 23 281 186 1920 27 287 0.08 3 88.7 32.5 80.8 12.4 1951 32 294 217 1614 138110 4Fr 329 22 72 54 517 6 94 1.32 t40 82.3 30.7 292.2 7.8 706 -9 115 203 601 ------------------------------------------------------------------------------------------Table 1 - page 10 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1382 329Sa 2335 31 0 131 2513 27 27 1.13 t26 90.1 32.7 357.3 -6.4 2652 18 51 235 2905 1382 923Tu 623 -8 103 9 808-22 126 1.00 t 4 77.9 29.5 250.5 2.8 953-32 152 262 530 1384 2 7Su 2057 36 304 77 2154 43 319 0.26 19 86.3 31.9 50.1 11.8 2251 47 337 357 1637 1384 8 2Tu 020 21 11 131 115 19 25 0.25 18 87.2 31.9 357.0 -14.8 211 15 38 175 424 1385 127Fr 301 37 65 56 454 20 89 1.50 t48 79.9 30.2 305.2 16.0 648 4 110 255 716 1385 722Sa 1414-45 237 120 1600-31 262 1.69 t49 92.4 33.3 136.3 -18.4 1746-15 281 294 1934 1386 116Tu 335 35 76 90 515 20 96 0.86 89 77.0 29.4 299.6 19.7 656 5 114 210 738 13871125Mo 2220 56 331 18 2243 57 340 0.04 1 89.0 32.6 32.3 21.3 2306 58 350 341 1523 1388 521Th 1726-18 283 174 1908 -4 301 0.93 96 79.0 29.7 87.1 -21.4 2050 7 322 279 1940 13881114Sa 1201-18 190 61 1342-13 213 1.32 t38 92.3 33.5 166.6 20.1 1522 -2 233 302 1539 1389 510Mo 1748-13 286 132 1942 2 308 1.34 t43 78.4 29.5 78.3 -20.0 2136 12 331 322 1927 138911 4Th 326 30 79 51 506 16 99 1.18 t30 89.9 32.8 294.6 18.2 646 2 117 192 703 1390 429Fr 2301 19 353 30 2307 19 354 0.00 0 82.7 30.7 26.8 -17.9 2312 19 355 22 1900 1391 320Mo 2355 35 4 180 2442 33 18 0.19 12 91.4 33.1 6.2 -2.4 2529 30 31 217 2928 1392 3 9Sa 1522-20 240 163 1705 -6 261 1.49 t44 92.4 33.4 120.9 1.1 1849 9 282 324 1746 1392 9 2Mo 153 24 40 19 343 11 65 1.23 t36 79.6 29.9 318.5 -5.1 533 -4 87 222 507 1393 227Th 621 -3 100 52 755-16 119 0.94 97 88.0 32.3 258.8 4.6 930-27 141 305 605 13951226Su 2305 60 344 130 2454 57 32 1.26 t37 81.0 30.5 3.2 23.1 2642 45 66 226 3200 1396 621We 2059 6 325 108 2250 13 349 1.72 t51 85.6 31.4 33.1 -23.2 2441 13 14 246 1953 13961215Fr 732 1 127 41 913 -9 147 1.14 t27 87.5 32.2 237.0 23.1 1053-15 169 292 741 1397 611Mo 430-10 64 111 525-17 74 0.21 14 79.9 29.9 293.7 -22.7 620-25 84 162 315 13981026Sa 322 30 77 118 343 26 81 0.04 1 88.3 32.4 315.0 16.1 405 23 85 139 651 1399 420Su 1903 2 297 114 2046 13 319 1.12 t26 84.4 31.2 62.6 -14.7 2229 21 343 317 1851 13991015We 1122-27 181 94 1310-23 209 1.26 t38 81.9 30.7 173.6 11.8 1458-12 233 267 1626 1400 4 9Fr 719-25 106 89 900-39 129 1.23 t34 90.5 32.8 239.8 -10.4 1041-48 159 252 430 140010 3Su 1345-24 220 72 1532-12 243 1.07 t22 77.7 29.5 138.8 7.1 1719 4 264 316 1651 1402 218Sa 518 10 89 6 610 2 99 0.22 15 86.0 31.8 285.7 7.8 702 -6 109 312 625 1403 2 7We 1100-25 167 85 1253-25 197 1.46 t47 79.8 30.1 185.4 12.4 1447-17 224 322 1700 1403 8 2Th 2151 18 333 104 2336 22 359 1.57 t47 92.5 33.3 22.1 -15.3 2521 19 25 232 1901 1404 127Su 1126-22 174 128 1307-20 199 0.89 92 77.1 29.4 182.1 16.6 1449-13 222 277 1633 1404 722Tu 1510-38 252 86 1640-25 270 0.87 91 92.2 33.2 126.4 -18.9 1810-12 286 331 1937 140512 6Su 705 4 122 329 727 1 126 0.04 1 89.2 32.7 262.5 22.3 749 -2 130 309 735 1406 6 2We 004 14 8 131 140 10 29 0.77 80 78.9 29.6 349.6 -22.5 316 1 49 215 322 14061125Th 2050 47 301 93 2231 57 335 1.31 t38 92.3 33.5 35.3 22.0 2411 59 18 263 1517 1407 522Su 017 15 12 87 213 7 37 1.49 t49 78.6 29.6 340.7 -21.9 409 -6 60 260 323 14071115Tu 1204-18 191 100 1344-12 213 1.20 t32 89.6 32.8 165.8 20.9 1524 -1 233 264 1533 1408 510Th 522-16 76 2 606-22 84 0.14 8 83.1 30.8 282.1 -20.5 650-29 92 315 327 1410 320Th 2332 34 358 134 2514 30 27 1.42 t42 92.4 33.4 357.8 -3.2 2657 20 53 255 2922 1411 310Tu 1423-28 227 118 1600-16 249 1.00 t 4 87.7 32.2 136.8 0.4 1737 -2 268 4 1752 1411 9 2We 1559-18 255 119 1742 -3 275 1.17 t31 85.9 31.6 108.4 -4.5 1925 12 295 253 1800 1413 713Th 1531-37 258 66 1644-26 272 0.51 48 91.1 32.9 125.5 -21.1 1758-15 286 338 1951 1414 1 6Sa 724 2 123 91 912-10 144 1.25 t37 81.3 30.6 239.8 21.5 1100-17 168 260 743 1414 7 3Tu 359 -5 58 43 551-20 78 1.86 t52 85.2 31.3 288.3 -22.2 743-36 100 215 320 14141226We 1615 5 240 114 1755 19 258 1.15 t28 87.8 32.3 107.7 22.4 1935 33 277 346 1531 141611 5Th 1204-19 191 174 1212-19 193 0.00 0 88.0 32.3 188.2 19.3 1219-18 194 184 1544 1417 5 1Sa 220 10 41 48 359 -2 61 1.00 t 2 84.9 31.3 314.0 -17.9 539-16 79 268 347 14171025Mo 1922 30 286 135 2109 44 312 1.22 t35 81.5 30.6 53.7 15.5 2256 53 349 245 1554 1418 420We 1500-34 248 156 1642-20 269 1.33 t39 90.9 32.9 123.7 -14.1 1825 -5 288 303 1901 14181014Fr 2114 41 318 78 2303 48 353 1.13 t28 77.5 29.5 25.4 11.1 2452 45 32 258 1619 1420 229Th 1329-31 211 60 1415-27 222 0.16 9 85.8 31.7 163.8 3.6 1501-22 233 23 1742 1420 823Fr 1551-22 254 187 1615-19 259 0.04 1 87.8 32.1 130.8 -7.4 1639-15 263 214 1820 1421 217Mo 1850 16 277 131 2043 31 302 1.42 t46 79.6 30.0 67.7 8.4 2236 43 333 315 1700 1421 813We 535-11 83 50 718-26 103 1.45 t44 92.6 33.4 265.9 -11.8 902-39 127 212 421 1422 2 6Fr 1909 22 278 172 2052 36 301 0.93 96 77.2 29.4 65.9 13.1 2235 47 331 273 1635 1422 8 2Su 2241 20 346 58 2415 21 9 0.99 100 91.9 33.2 12.5 -15.9 2549 16 31 266 2823 14231217Fr 1552 2 236 42 1614 5 240 0.04 1 89.5 32.8 132.0 22.5 1637 8 244 21 1533 142412 6We 542 15 107 24 723 2 125 1.30 t37 92.3 33.5 263.4 23.0 903 -9 145 257 740 14251125Su 2045 47 299 133 2226 58 333 1.20 t32 89.3 32.7 36.3 22.7 2407 59 17 226 1512 1427 411Fr 1614-22 260 235 1631-19 263 0.02 0 92.0 33.2 127.5 -10.4 1647-17 267 254 1844 1428 331We 734-24 110 100 916-37 134 1.33 t39 92.3 33.3 236.6 -7.3 1057-45 164 271 453 1428 923Th 1639 -5 260 73 1824 11 280 1.05 t18 80.0 30.1 96.4 3.4 2009 26 301 298 1712 1429 320Su 2217 31 336 108 2356 33 5 1.07 t21 87.4 32.1 16.9 -3.9 2536 28 32 305 2918 1429 912Mo 2340 36 5 77 2525 31 35 1.26 t37 86.2 31.7 351.8 -0.3 2710 20 61 190 2936 1430 9 2Sa 1504-25 242 179 1513-24 244 0.01 0 91.8 33.2 145.3 -3.8 1522-23 246 190 1756 1431 724Tu 2306 18 352 21 2411 18 7 0.38 31 90.8 32.8 13.8 -18.7 2516 16 23 287 2808 1432 117Th 1540 -3 233 160 1727 11 254 1.24 t36 81.7 30.7 116.7 19.1 1915 26 274 312 1604 1433 1 6Tu 055 55 31 64 235 44 62 1.16 t29 88.2 32.4 338.7 20.9 416 30 85 268 744 1433 7 2Th 1708-22 278 163 1829-11 293 0.52 48 79.4 29.8 98.5 -21.6 1951 0 308 241 1948 143511 6Su 328 30 80 62 515 15 101 1.18 t32 81.1 30.5 292.6 18.7 702 1 120 206 704 1436 430Mo 2233 19 346 123 2418 19 12 1.45 t44 91.2 33.0 9.5 -17.3 2602 12 36 245 2758 14361025Th 454 14 95 18 644 -1 115 1.17 t32 77.3 29.5 270.1 14.8 834-14 138 253 636 1437 420Sa 1624-22 265 209 1705-16 273 0.14 8 92.9 33.4 118.2 -13.6 1746-10 281 254 1857 ------------------------------------------------------------------------------------------Table 1 - page 11 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1438 311Tu 2137 30 323 58 2213 33 333 0.10 4 85.5 31.6 43.5 -0.8 2248 35 343 10 1738 1439 3 1Su 231 30 51 64 424 15 76 1.36 t43 79.4 30.0 311.8 4.2 616 -2 97 265 606 1439 824Mo 1325-41 218 113 1507-29 244 1.35 t40 92.6 33.4 148.0 -7.9 1649-15 265 275 1825 1440 218Th 246 33 57 102 430 19 80 0.98 99 77.3 29.4 311.0 9.1 615 3 100 221 636 1440 813Sa 617-17 91 12 755-31 110 1.10 t23 91.7 33.1 257.0 -12.3 932-43 135 253 416 14411228Th 039 57 25 357 101 55 34 0.04 1 89.8 32.8 1.5 21.6 123 53 42 323 756 14421217Mo 1436 -6 221 94 1616 6 240 1.29 t37 92.3 33.5 131.5 23.1 1756 19 258 326 1529 1443 612We 1313-56 223 123 1511-41 256 1.81 t53 79.0 29.7 147.4 -23.5 1708-24 279 318 2010 144312 7Sa 529 17 105 62 710 4 123 1.21 t33 89.0 32.6 266.5 23.7 851 -7 143 217 746 1444 531Su 1845 -9 299 87 1958 0 312 0.44 39 84.0 31.0 74.8 -23.7 2111 7 327 351 1957 1446 411Mo 1529-28 252 173 1709-14 272 1.24 t34 92.3 33.3 117.6 -11.2 1849 1 291 312 1845 144610 5We 018 43 20 22 200 34 50 0.99 100 80.1 30.2 341.7 7.6 343 21 74 233 611 1447 4 1Sa 600-11 91 58 742-26 111 1.16 t30 87.2 32.0 259.6 -8.0 924-39 135 294 449 1447 924Su 732-17 119 45 918-29 144 1.34 t41 86.5 31.8 232.8 4.0 1103-34 173 220 528 1448 912Th 2242 36 346 141 2314 37 356 0.09 4 91.9 33.2 24.1 0.4 2347 37 6 165 1726 1449 8 4Mo 648-24 94 327 742-32 105 0.25 17 90.4 32.8 260.9 -15.7 836-39 117 271 358 1450 127Tu 2353 54 2 131 2540 47 41 1.22 t35 82.1 30.7 353.9 16.1 2727 34 69 238 3118 1450 724Fr 1804-11 286 99 1955 4 307 1.58 t49 84.3 31.1 77.6 -18.0 2147 15 331 275 1925 1451 117Su 934-14 148 68 1114-20 171 1.17 t30 88.5 32.5 209.7 18.5 1255-19 196 322 722 1451 713Tu 2332 17 359 113 2502 15 20 0.67 67 79.1 29.7 0.5 -19.8 2633 8 40 188 2753 1453 522Tu 1646-25 276 98 1815-12 292 0.75 77 85.8 31.5 100.4 -22.6 1944 -1 309 341 1952 14531116Fr 1137-17 184 109 1324-13 208 1.16 t30 80.8 30.4 171.0 21.2 1510 -3 230 274 1532 1454 512Su 605-22 85 66 750-37 105 1.58 t47 91.5 33.0 256.3 -20.0 936-51 133 238 326 145411 5Tu 1240-19 200 74 1431-10 225 1.21 t35 77.2 29.4 153.7 18.0 1622 4 247 317 1548 1455 5 1Th 2353 20 6 156 2447 18 19 0.26 18 92.9 33.4 2.4 -16.8 2540 15 31 201 2801 1456 322Mo 545 -6 88 347 559 -8 91 0.01 0 85.2 31.4 286.1 -5.1 612-10 93 333 507 1457 9 3Sa 2124 27 324 113 2303 33 352 1.26 t35 92.6 33.4 28.0 -3.7 2443 32 20 221 1749 1458 824Th 1359-38 228 80 1539-25 251 1.20 t32 91.3 33.1 140.2 -8.4 1719-11 271 313 1828 1460 1 8Tu 925-13 146 356 947-14 151 0.04 1 90.1 32.9 231.0 19.9 1009-16 156 338 728 1460 7 3Th 1957 2 310 175 2100 8 323 0.28 21 78.4 29.5 61.1 -21.2 2203 13 336 225 1943 14601227Sa 2330 59 356 75 2510 55 37 1.29 t37 92.2 33.5 359.3 22.2 2650 43 67 252 3201 1461 622Mo 1943 -1 309 128 2140 10 332 1.69 t53 79.2 29.7 50.6 -23.1 2337 14 359 268 1953 14611217Th 1414 -7 216 130 1555 4 236 1.21 t33 88.7 32.5 136.7 23.8 1736 17 254 286 1524 1462 612Sa 132 9 27 35 254 2 44 0.59 58 84.4 31.1 331.4 -24.2 417 -8 59 283 309 1464 421Sa 2318 23 357 140 2455 20 21 1.13 t26 92.1 33.2 0.5 -14.7 2633 12 43 244 2811 14641015Mo 806-15 131 6 946-24 155 0.93 96 80.3 30.2 224.8 11.5 1127-27 181 274 607 1465 411Th 1335-43 223 123 1520-30 250 1.26 t36 86.9 31.8 144.5 -11.9 1704-16 271 354 1854 146510 4Fr 1533-10 244 110 1720 5 265 1.40 t43 86.8 31.9 111.5 8.2 1907 21 285 265 1643 1466 924We 640 -9 108 91 724-15 117 0.17 9 92.0 33.3 260.9 4.7 807-20 127 146 536 1468 2 8Mo 800-10 124 105 946-21 147 1.19 t33 82.5 30.8 232.4 12.5 1132-26 174 272 652 1468 8 4Th 111 19 24 38 301 9 49 1.44 t46 83.8 31.0 330.7 -15.0 452 -5 71 222 419 1469 127Fr 1808 15 264 131 1949 29 284 1.20 t32 88.9 32.6 81.4 15.4 2130 42 309 344 1620 1469 724Mo 601-18 83 63 738-32 103 0.81 85 78.9 29.7 261.6 -17.4 916-45 126 184 349 1470 117We 1038-19 163 14 1047-20 165 0.01 0 92.3 33.5 216.3 17.7 1056-20 167 7 716 1471 6 2Su 2356 13 6 43 2519 10 24 0.61 60 86.2 31.6 354.9 -23.8 2641 3 41 284 2714 14711127We 1952 40 285 151 2138 53 314 1.14 t29 80.4 30.3 48.6 22.9 2324 60 356 250 1508 1472 522Fr 1332-52 230 129 1519-38 257 1.71 t49 91.8 33.1 144.5 -21.9 1705-23 278 308 1956 14721115Su 2032 44 298 101 2224 56 334 1.23 t37 77.1 29.4 36.0 20.5 2416 57 21 270 1522 147311 4Th 2155 51 326 16 2204 51 329 0.01 0 79.0 29.9 40.4 17.3 2213 52 332 3 1542 1475 322We 1725 -6 270 125 1914 10 292 1.20 t34 79.2 29.8 87.4 -4.5 2104 23 316 333 1804 1475 915Fr 529 -2 91 56 707-15 111 1.18 t30 92.6 33.5 266.0 0.6 846-27 132 203 520 1476 310Su 1732 -2 268 168 1921 14 289 1.12 t27 77.6 29.5 86.8 0.5 2110 28 314 291 1741 1476 9 3Tu 2149 29 331 71 2331 33 0 1.29 t37 91.0 33.0 21.4 -4.2 2512 29 28 254 1751 1478 118Su 1810 16 263 59 1829 19 267 0.03 1 90.4 33.0 101.0 17.4 1848 22 270 39 1612 1478 715We 245 7 44 125 328 3 52 0.13 6 78.3 29.5 324.1 -19.2 412 -3 61 160 350 1479 1 8Fr 821 -6 134 48 1001-15 155 1.28 t36 92.2 33.5 227.5 20.5 1141-18 178 293 731 1479 7 4Su 215 7 37 74 411 -5 59 1.53 t50 79.4 29.8 313.4 -21.9 606-21 80 217 329 14791228Tu 2258 59 341 124 2439 58 26 1.21 t33 88.4 32.5 7.0 22.9 2621 48 60 216 3206 14821026Sa 1603 0 246 71 1741 14 265 0.89 93 80.5 30.3 105.9 15.1 1920 29 284 316 1603 1483 422Tu 2101 15 323 121 2248 21 349 1.37 t42 86.6 31.7 32.0 -15.4 2435 20 15 299 1846 14831015We 2345 48 11 70 2532 41 46 1.45 t45 87.0 32.0 348.0 12.1 2719 28 72 195 3037 148410 4Mo 1451-15 235 154 1542 -9 245 0.23 15 92.0 33.3 135.8 8.9 1632 -1 255 217 1639 1485 825Th 2242 28 345 350 2258 28 349 0.02 0 89.7 32.6 30.6 -8.2 2314 29 354 327 1822 1486 218Sa 1603 -9 244 174 1748 6 264 1.15 t29 82.9 30.9 111.6 8.5 1933 21 285 313 1708 1487 2 8Th 237 37 56 64 419 22 79 1.23 t34 89.3 32.6 313.9 11.8 600 7 98 278 650 1488 128Mo 1913 24 278 72 1931 26 281 0.03 1 92.4 33.5 85.5 14.7 1950 29 285 51 1624 148912 8Tu 407 30 90 74 553 15 109 1.12 t27 80.1 30.3 286.1 23.8 739 1 128 220 750 1490 6 2We 2058 7 325 113 2245 13 348 1.84 t50 92.1 33.2 33.3 -23.1 2432 13 13 258 1947 14901127Sa 429 25 94 29 621 9 114 1.25 t38 77.0 29.4 277.7 22.3 813 -5 135 260 733 1491 523Mo 1444-42 249 178 1556-32 265 0.50 46 92.7 33.4 135.2 -21.3 1708-22 278 266 1950 14911116We 545 12 106 327 607 9 111 0.03 1 79.2 30.0 280.3 19.9 629 6 115 307 713 ------------------------------------------------------------------------------------------Table 1 - page 12 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1493 4 2Tu 037 27 18 72 225 19 45 1.10 t25 79.0 29.8 339.0 -8.7 412 5 67 275 450 1493 925We 1343-27 220 120 1519-15 242 1.11 t24 92.6 33.5 142.2 5.0 1656 -2 260 266 1705 1494 322Sa 042 32 19 115 233 22 48 1.21 t35 77.8 29.5 337.8 -3.8 425 8 72 232 520 1494 915Mo 545 -4 94 19 729-19 115 1.36 t41 90.7 32.9 260.9 0.1 912-31 139 244 517 1496 130Sa 255 36 62 346 309 35 65 0.02 0 90.6 33.0 331.4 14.2 323 33 68 329 707 1497 118We 1709 8 252 118 1849 22 270 1.27 t35 92.2 33.5 96.1 17.9 2029 37 291 336 1608 1498 1 8Mo 740 0 125 83 922-11 146 1.22 t33 88.1 32.4 237.4 21.1 1104-17 168 248 738 1498 7 3Tu 1515-40 256 96 1651-26 275 0.89 93 85.2 31.3 123.3 -22.5 1827-12 292 336 2002 1500 513We 1438-42 247 176 1609-29 266 0.88 92 91.8 33.1 131.9 -20.0 1739-16 283 294 1943 150011 6Fr 008 54 20 25 145 45 53 0.86 90 80.8 30.4 345.3 18.2 322 32 77 243 714 1501 5 3Mo 421 -5 66 63 610-21 86 1.49 t46 86.2 31.6 281.4 -18.4 758-37 107 264 343 15011026Tu 804-12 133 50 951-20 157 1.49 t46 87.3 32.1 223.1 15.7 1139-22 184 238 628 15021015Sa 2312 50 358 124 2407 49 18 0.27 20 92.1 33.4 8.9 12.9 2502 45 37 163 3047 1504 229Th 2358 42 5 140 2541 36 36 1.10 t24 83.4 31.0 352.5 4.3 2724 24 62 242 3007 1504 825Su 1541-24 252 78 1727 -8 273 1.20 t34 82.9 30.8 113.1 -7.6 1913 8 293 297 1819 1505 218Tu 1059-30 167 91 1242-30 195 1.28 t37 89.6 32.7 187.8 7.8 1424-23 221 340 1729 1505 814Th 1915 5 297 122 2102 18 320 1.08 t23 78.4 29.6 59.7 -10.9 2250 26 346 228 1838 1506 2 8Su 345 27 72 4 410 23 77 0.06 2 92.5 33.5 315.7 11.1 436 19 82 334 644 15071219Su 1223-14 191 129 1410 -8 214 1.11 t26 79.9 30.2 163.4 23.7 1556 3 235 289 1530 1508 613Tu 424-10 62 45 611-24 81 1.80 t50 92.3 33.2 282.6 -23.6 757-40 102 225 304 150812 7Th 1230-14 194 85 1423 -7 219 1.27 t39 77.0 29.4 158.6 23.2 1615 6 240 327 1526 1509 6 2Sa 2206 12 340 144 2326 14 358 0.63 63 92.6 33.3 23.2 -22.5 2445 13 16 216 1940 15091126Mo 1346-11 213 34 1415 -9 219 0.06 2 79.4 30.1 159.3 21.6 1443 -6 224 12 1532 151110 6Mo 2204 43 334 115 2339 46 6 1.05 t16 92.6 33.5 16.6 9.2 2514 41 37 205 3027 1512 925Sa 1350-26 222 83 1534-14 245 1.43 t43 90.3 32.9 138.7 4.5 1718 2 265 304 1708 1513 915Th 319 18 63 313 327 17 65 0.00 0 84.2 31.2 321.5 -0.4 335 16 66 304 528 1515 130Tu 153 44 46 56 333 32 71 1.25 t34 92.2 33.4 325.5 14.7 512 17 91 263 710 1515 725We 1536-33 257 138 1727-17 278 1.24 t37 79.8 29.9 114.6 -17.3 1917 -1 298 275 1922 1516 119Sa 1616 1 241 153 1759 15 260 1.23 t34 87.8 32.3 108.8 18.5 1941 30 280 300 1608 1516 713Su 2215 14 340 70 2355 16 3 1.04 t15 85.5 31.4 17.6 -20.6 2535 13 26 272 2751 1518 524Mo 2212 13 341 153 2338 15 1 0.75 78 91.6 33.1 20.0 -21.7 2503 13 21 232 2730 15181117We 820 -8 138 15 956-16 159 0.84 88 81.0 30.5 223.2 20.6 1132-18 181 287 707 151911 6Su 1632 7 250 117 1819 23 269 1.52 t46 87.6 32.2 96.4 18.8 2007 39 291 277 1539 1520 5 2We 1929 1 305 74 2011 6 313 0.12 6 80.0 30.0 70.8 -19.0 2053 10 322 23 1917 15201026Fr 742 -8 129 93 840-14 141 0.31 24 92.1 33.4 240.7 16.5 938-19 154 174 635 1522 312We 748-19 116 112 930-31 140 1.04 t15 83.8 31.1 234.7 0.0 1111-38 168 266 538 1522 9 5Fr 2303 33 352 42 2447 31 22 1.09 t24 82.5 30.7 2.1 -3.5 2631 23 49 237 2924 1523 3 1Su 1916 16 286 138 2059 30 310 1.33 t39 90.0 32.8 62.8 3.6 2242 38 338 329 1719 1523 826We 203 21 41 58 354 8 66 1.20 t35 78.2 29.5 316.1 -7.1 545 -7 87 184 456 1525 7 4Tu 2149 10 334 30 2240 13 345 0.21 14 87.4 31.9 36.4 -22.6 2331 14 357 319 1954 15251229Fr 2037 44 292 164 2223 56 325 1.10 t24 79.6 30.1 41.2 22.6 2409 59 10 254 1519 15261218Tu 2032 44 292 119 2225 57 327 1.28 t40 76.9 29.4 39.4 23.1 2417 60 16 285 1512 1527 614Fr 526-18 74 81 652-30 90 0.77 79 92.4 33.3 272.2 -22.9 818-42 107 188 307 152712 7Sa 2155 54 319 46 2227 57 331 0.07 3 79.6 30.1 37.4 22.5 2259 59 344 358 1512 1529 423Fr 1438-39 244 105 1618-25 265 0.86 90 78.8 29.7 129.6 -16.1 1757-10 284 352 1911 15291017Su 633 -2 113 68 807-14 132 1.00 t 3 92.5 33.5 249.3 13.1 940-22 153 211 619 1530 412Tu 1438-35 240 150 1634-20 265 1.43 t47 78.2 29.5 126.2 -11.9 1829 -3 287 309 1847 153010 6Th 2201 43 333 78 2346 45 9 1.48 t45 89.9 32.8 15.0 8.7 2531 39 42 241 3023 1531 4 1Sa 1905 7 292 211 1945 12 300 0.12 6 82.5 30.7 79.3 -7.3 2026 17 309 246 1816 1533 2 9Su 1032-25 160 72 1211-28 186 1.22 t33 92.1 33.4 195.9 11.0 1350-23 211 325 1714 1533 8 4Mo 2226 21 342 112 2413 23 9 1.10 t25 80.0 30.0 12.6 -14.1 2600 17 35 212 2831 1534 130Fr 048 51 24 107 232 41 56 1.25 t35 87.5 32.2 341.0 15.3 415 26 79 225 716 1534 725Sa 521-13 75 20 704-28 95 1.17 t31 85.9 31.5 270.3 -17.9 848-42 118 246 349 1536 6 4Su 544-20 78 101 704-32 93 0.61 61 91.4 33.0 269.0 -22.6 823-43 109 197 313 15361127Mo 1636 9 247 82 1811 23 264 0.83 86 81.3 30.6 100.4 22.2 1947 37 283 332 1523 1537 524Th 1839 -8 297 136 2030 5 318 1.75 t51 85.5 31.4 66.7 -22.4 2222 13 342 298 1945 15371117Sa 106 52 43 56 253 39 73 1.54 t47 87.8 32.3 328.7 21.3 440 23 95 203 735 1538 514Tu 156 9 34 26 255 3 47 0.26 18 79.8 29.9 329.9 -21.4 355 -4 58 312 325 153811 6We 1619 6 247 161 1719 14 258 0.34 27 92.2 33.4 111.2 19.5 1820 23 269 236 1535 1540 322Mo 1530-23 246 182 1709 -9 266 0.96 98 84.3 31.2 119.1 -4.2 1847 5 285 306 1810 1540 916Th 635-11 104 357 816-24 126 1.00 100 82.0 30.6 249.0 0.8 958-34 152 251 519 1541 312Sa 325 19 62 72 509 4 83 1.40 t42 90.4 32.9 299.6 -0.7 652-12 103 277 535 1542 3 1We 2026 25 303 83 2107 30 312 0.15 8 92.6 33.5 60.4 2.9 2148 34 323 27 1721 1543 716Mo 520-14 73 320 552-19 79 0.08 3 87.8 32.0 288.6 -20.7 625-23 85 283 333 1544 110Th 449 24 93 90 635 9 112 1.08 t23 79.4 30.1 279.3 20.7 821 -5 132 235 741 1544 7 4Fr 1920 -4 303 98 2104 7 324 1.53 t46 92.6 33.3 60.2 -21.9 2249 14 346 275 1950 15441229Mo 434 27 92 45 627 10 112 1.30 t41 77.0 29.4 280.2 22.1 820 -4 133 271 746 15451218Fr 607 12 110 347 642 8 116 0.09 4 79.9 30.2 274.9 22.5 717 3 123 317 743 1547 5 4We 2128 13 331 80 2302 18 353 0.72 74 78.7 29.6 28.3 -19.1 2436 16 15 306 1912 15471028Fr 1509 -6 235 139 1641 7 252 0.97 99 92.5 33.5 120.7 16.7 1813 20 269 269 1553 1548 422Su 2126 17 329 130 2322 22 357 1.56 t50 78.4 29.6 23.6 -15.4 2519 18 26 257 1848 15481017We 620 0 110 29 806-14 131 1.53 t46 89.6 32.7 249.7 12.6 952-23 156 252 617 ------------------------------------------------------------------------------------------Table 1 - page 13 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1549 412Fr 209 18 41 142 304 12 53 0.23 15 83.0 30.8 328.7 -11.2 359 5 64 189 433 154910 6Su 1819 14 277 43 1900 20 285 0.12 6 83.3 31.0 86.7 8.1 1940 26 293 358 1642 1551 220Fr 1902 17 281 122 2041 30 303 1.18 t30 92.1 33.4 67.9 6.9 2219 40 329 327 1705 1551 816Su 525 -8 82 65 707-23 102 0.97 99 80.2 30.0 268.4 -10.4 850-36 125 196 431 1552 210We 912-19 140 99 1056-26 165 1.28 t37 87.3 32.1 214.7 11.5 1240-27 192 275 642 1553 725Tu 414 -3 62 319 422 -4 63 0.01 0 91.9 33.1 311.1 -18.5 430 -5 65 309 353 155412 9Su 057 56 38 25 232 45 67 0.82 86 81.5 30.6 336.5 22.9 407 31 87 255 755 1555 6 5We 140 9 30 81 332 -2 52 1.83 t52 85.1 31.3 321.7 -23.3 525-17 72 238 314 15551128Th 945-13 157 72 1132-16 181 1.55 t47 88.1 32.4 200.0 22.9 1320-12 205 265 1528 15561117Tu 102 53 43 101 205 46 61 0.36 29 92.2 33.5 340.7 22.0 307 38 76 160 743 1558 4 2Sa 2308 29 352 154 2443 27 18 0.88 91 84.8 31.3 4.7 -8.3 2618 20 42 241 2852 1558 927Tu 1412-24 227 58 1551-11 248 0.91 95 81.6 30.5 134.6 5.0 1729 4 267 310 1703 1559 916Sa 1604-12 253 110 1759 5 276 1.41 t46 77.8 29.5 103.1 1.3 1954 22 299 260 1724 1560 312Tu 436 8 77 20 524 1 86 0.21 13 92.6 33.5 295.3 -1.4 613 -7 95 324 529 1560 9 4We 1729 -3 272 170 1806 3 279 0.10 4 79.0 29.8 101.8 -2.6 1844 8 286 206 1746 1562 120Tu 1256-19 197 147 1441-11 221 1.06 t19 79.2 30.0 158.4 18.1 1627 1 242 302 1621 1562 716Th 251 5 45 29 434 -7 65 1.39 t42 92.7 33.4 308.0 -19.9 617-21 84 226 341 1563 1 9Sa 1233-17 192 99 1426-11 218 1.31 t42 77.0 29.4 161.3 20.2 1620 2 240 338 1603 1563 7 5Mo 2009 3 313 131 2144 11 332 1.03 t13 92.0 33.2 50.1 -21.2 2319 16 354 232 1944 15631229We 1420 -9 217 55 1458 -6 225 0.10 5 80.2 30.3 152.2 21.5 1536 -2 232 25 1548 1565 515Tu 413 -7 62 17 539-19 78 0.58 56 78.6 29.6 289.2 -21.5 705-31 94 277 321 156511 7We 2350 56 14 102 2522 49 47 0.94 97 92.4 33.5 350.9 19.7 2653 38 71 194 3124 1566 5 4Sa 407 -4 63 68 605-20 85 1.70 t53 78.7 29.6 282.7 -18.4 802-38 108 237 342 15661028Mo 1445 -9 230 98 1632 5 251 1.56 t47 89.2 32.6 123.1 16.1 1818 20 270 308 1557 15671018Sa 210 36 56 339 257 30 68 0.16 9 82.8 30.9 327.1 12.0 343 24 78 284 630 1569 3 3Th 327 21 64 51 504 8 83 1.13 t26 92.0 33.3 301.4 2.6 641 -7 102 274 555 1569 826Fr 1232-43 201 118 1410-35 229 0.86 90 80.4 30.1 161.9 -6.4 1548-22 252 257 1815 1570 220Mo 1729 3 262 161 1914 18 283 1.31 t39 87.0 32.0 89.7 7.4 2059 32 306 300 1708 1570 815Tu 1955 10 305 92 2143 21 329 1.42 t44 86.6 31.8 49.8 -11.0 2330 26 357 270 1837 1572 625We 2046 6 321 170 2148 11 334 0.33 26 90.8 32.8 49.0 -22.0 2249 14 347 222 1946 15721219Fr 920-10 148 33 1054-15 169 0.82 85 81.8 30.7 212.3 22.7 1228-15 191 309 737 157312 8Tu 1827 26 266 133 2014 42 288 1.56 t47 88.4 32.5 70.8 23.6 2201 56 318 281 1513 1574 6 4Fr 1443-45 251 94 1607-33 269 0.55 53 79.4 29.8 132.9 -23.9 1731-21 284 3 2010 15741128Su 951-13 158 117 1054-15 172 0.37 31 92.2 33.5 209.5 23.6 1157-15 186 209 727 1576 413Fr 638-20 96 113 809-33 115 0.78 81 85.2 31.4 252.4 -12.1 940-44 138 235 424 157610 7Su 2157 43 331 47 2333 46 4 0.84 88 81.2 30.4 18.3 9.1 2510 42 36 254 3027 1577 4 2Tu 1921 8 297 142 2106 20 320 1.57 t47 91.1 33.0 58.5 -9.0 2252 27 347 315 1818 1577 926Th 2318 42 359 72 2514 37 36 1.49 t49 77.6 29.4 353.4 5.5 2710 24 65 197 3002 1578 916Tu 027 37 20 112 119 33 35 0.20 12 79.2 29.8 352.6 1.7 212 28 49 150 543 1580 131Su 2057 39 301 173 2242 49 333 1.03 t13 79.0 29.9 38.5 14.8 2426 51 12 261 1617 1581 119Th 2029 38 293 132 2223 51 326 1.34 t43 77.1 29.4 42.7 17.6 2417 54 10 301 1559 1581 716Su 332 1 54 63 511-12 72 1.16 t29 91.8 33.1 298.5 -19.2 650-26 91 188 343 1582 1 8Mo 2231 54 329 58 2312 56 345 0.12 6 80.5 30.3 29.5 19.7 2353 57 3 355 1539 15831129Tu 836 -9 142 92 1007-15 162 0.92 96 92.3 33.5 220.4 22.0 1138-17 182 237 716 15841117Sa 2316 56 359 73 2503 51 40 1.58 t47 88.8 32.6 355.8 19.1 2649 38 70 234 3121 1585 513Mo 1609-27 265 187 1725-16 280 0.48 44 83.9 31.0 112.7 -17.8 1841 -5 294 267 1920 158511 7Th 1009-22 162 4 1100-23 175 0.19 12 82.4 30.8 206.3 15.5 1150-23 187 327 628 1587 916We 1950 18 301 140 2123 29 323 0.76 78 80.6 30.2 52.7 -2.2 2257 35 349 223 1741 1588 313Su 136 35 36 102 322 23 62 1.37 t42 86.7 31.9 327.1 3.2 508 8 83 235 601 1588 9 5Mo 326 12 60 31 514 -3 82 1.53 t47 86.9 31.9 296.1 -7.0 703-19 103 226 452 1589 825Fr 1847 1 291 50 1939 7 301 0.24 16 92.2 33.2 80.9 -11.6 2031 14 312 343 1843 1590 717Tu 421 -6 62 114 508-12 71 0.19 12 90.5 32.7 299.1 -20.4 556-19 80 161 336 1591 1 9We 1744 17 257 98 1918 30 274 0.81 85 82.2 30.8 87.6 21.6 2052 44 295 343 1538 1591 7 6Sa 1537-37 261 141 1728-20 282 1.53 t48 84.3 31.1 114.0 -22.6 1919 -5 302 293 2000 15911230Mo 312 39 76 56 459 23 97 1.57 t47 88.7 32.5 301.1 23.4 646 9 116 223 756 1592 624We 2106 6 326 79 2238 12 346 0.71 72 79.2 29.7 35.7 -24.0 2411 13 7 307 1956 15921218Fr 1842 29 268 178 1945 38 280 0.38 32 92.2 33.5 78.0 24.3 2049 47 295 248 1508 1594 5 4We 1405-43 234 184 1531-32 255 0.67 68 85.7 31.5 141.6 -15.4 1657-19 272 293 1914 15941029Sa 548 5 104 352 722 -8 122 0.79 82 80.8 30.4 260.7 12.9 856-18 142 257 622 1595 424Mo 309 9 54 79 455 -5 75 1.67 t49 91.4 33.1 300.7 -12.8 641-21 94 263 420 15951018We 642 -6 112 35 838-20 137 1.56 t50 77.4 29.4 241.7 9.6 1035-28 166 226 600 1596 412Fr 2031 16 313 91 2134 22 327 0.37 30 92.7 33.4 51.3 -9.7 2237 26 343 1 1819 159610 6Su 742-17 122 88 843-24 136 0.28 20 79.3 29.9 240.8 5.9 945-29 152 167 540 1598 221Sa 450 17 86 105 634 2 105 0.99 100 78.9 29.9 280.3 11.0 817-13 125 239 645 1598 816Su 1809 -8 285 80 1946 6 304 1.15 t27 92.9 33.4 79.5 -14.1 2124 17 324 290 1901 1599 210We 419 24 82 61 613 7 103 1.37 t44 77.2 29.4 285.4 14.3 807 -9 125 278 704 1600 130Su 639 5 111 7 724 -1 119 0.15 8 80.8 30.4 267.2 17.0 809 -7 128 328 717 1601 615Fr 1737-19 286 68 1838-11 297 0.26 19 78.4 29.5 95.4 -24.1 1939 -3 308 357 2005 160112 9Su 1726 18 255 161 1857 31 272 0.91 95 92.2 33.5 89.1 23.5 2027 44 291 278 1510 1602 6 4Tu 1720-20 282 127 1917 -4 304 1.67 t52 79.2 29.7 85.2 -22.6 2114 8 327 297 1949 16021129Fr 752 -5 132 48 939-14 155 1.59 t48 88.5 32.5 227.5 21.4 1126-17 179 274 714 1603 524Sa 2305 17 354 141 2429 16 14 0.62 61 84.4 31.1 6.7 -20.2 2554 11 33 213 2740 16031118Tu 1816 22 269 60 1909 30 280 0.21 14 82.0 30.7 84.3 18.5 2002 38 291 1 1539 ------------------------------------------------------------------------------------------Table 1 - page 14 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1605 4 3Su 1952 14 301 111 2125 24 323 0.99 100 91.9 33.2 54.3 -6.0 2259 30 348 323 1804 1605 927Tu 316 20 65 78 445 7 83 0.67 67 80.8 30.3 301.4 2.1 614 -6 100 176 535 1607 9 6Th 226 19 46 352 327 12 60 0.34 27 92.3 33.3 323.0 -7.5 428 4 72 272 456 1609 120Tu 205 47 53 31 338 34 76 0.81 84 82.5 30.9 323.3 19.6 512 20 95 271 739 1609 716Th 2235 15 345 111 2424 15 10 1.38 t43 83.9 31.0 10.2 -21.1 2614 9 35 228 2745 1610 1 9Sa 1157-16 184 103 1343-12 208 1.58 t47 89.0 32.6 171.2 22.3 1530 -2 230 294 1548 1610 7 6Tu 327 -2 51 27 507-14 69 0.86 90 79.0 29.7 299.3 -23.3 646-29 87 260 316 16101230Th 334 36 82 99 438 27 94 0.39 32 92.3 33.5 306.2 24.1 543 18 105 175 803 1612 514Mo 2128 14 330 173 2247 18 349 0.56 53 86.2 31.6 32.5 -18.2 2406 18 8 240 1906 161211 8Th 1346-16 217 53 1518 -5 236 0.74 76 80.4 30.3 141.7 16.3 1651 7 253 322 1557 16131028Mo 1413-15 224 97 1610 0 248 1.62 t51 77.3 29.4 128.4 13.4 1808 17 270 278 1612 1614 424Th 418 0 68 31 527-11 81 0.46 42 92.6 33.4 292.3 -13.5 637-21 94 305 414 16141017Fr 1508-12 238 148 1617 -2 251 0.35 28 79.4 30.0 126.8 10.0 1725 8 264 227 1631 1616 3 3Th 1236-30 194 156 1418-24 221 0.94 97 78.8 29.8 163.8 6.9 1600-12 243 303 1726 1616 827Sa 156 19 37 14 330 9 58 1.04 t14 92.9 33.4 322.9 -10.5 505 -3 77 232 442 1617 220Mo 1203-28 184 107 1358-22 214 1.41 t46 77.4 29.5 169.1 10.6 1552-10 240 342 1707 1617 816We 1830 -4 289 117 2014 10 309 1.40 t42 91.1 33.0 72.4 -13.4 2158 20 332 247 1855 1618 2 9Fr 1443-15 224 75 1532 -9 234 0.18 10 81.2 30.5 145.4 13.8 1621 -3 244 33 1644 1619 627Th 024 12 11 4 103 11 20 0.10 5 78.3 29.5 359.8 -24.2 143 8 28 314 317 16191221Sa 218 47 65 89 348 34 85 0.90 94 92.1 33.5 317.7 24.0 519 21 101 203 758 1620 614Su 2354 13 5 74 2550 8 31 1.51 t49 79.4 29.8 347.5 -23.5 2745 -4 54 244 2717 162012 9We 1630 9 245 119 1818 24 265 1.60 t48 88.1 32.4 98.9 22.8 2005 40 286 319 1516 1621 6 4Fr 601-23 82 87 732-36 99 0.76 79 84.8 31.2 261.5 -21.9 902-48 121 200 314 16211129Mo 227 42 66 348 322 34 79 0.23 15 81.6 30.6 321.9 20.7 417 26 90 286 727 1623 415Sa 351 6 64 41 522 -7 81 0.90 94 91.8 33.2 294.2 -10.1 653-21 98 279 436 162310 8Su 1053-32 172 110 1217-31 196 0.60 58 81.0 30.4 187.4 6.4 1342-25 218 233 1658 1624 4 3We 1722 -7 271 156 1911 8 292 1.50 t47 86.2 31.7 88.1 -5.5 2100 22 315 302 1809 1624 926Th 1854 14 288 103 2043 28 312 1.71 t50 87.5 32.1 62.0 1.5 2233 37 341 268 1720 1625 324Mo 142 31 36 163 210 28 43 0.06 2 80.0 30.1 344.3 -0.6 239 25 50 184 540 1627 131Su 1025-19 160 53 1158-22 182 0.80 83 82.9 31.0 198.9 16.9 1331-19 205 331 1635 1627 728We 533-15 77 62 720-31 98 1.24 t36 83.5 30.9 266.3 -18.8 907-45 122 209 343 1628 120Th 2040 42 294 141 2226 54 326 1.59 t47 89.3 32.7 41.4 20.2 2413 57 9 263 1540 1629 1 9Tu 1227-15 191 152 1332-12 205 0.39 33 92.3 33.5 174.2 22.9 1436 -7 219 245 1545 1630 526Su 449-11 70 119 600-21 82 0.44 38 86.6 31.7 284.2 -20.4 711-32 96 195 330 16301119Tu 2149 52 323 56 2320 56 359 0.71 72 80.0 30.2 21.8 19.1 2451 53 35 268 1534 1631 515Th 1828 -7 293 147 2015 6 314 1.88 t50 92.0 33.2 70.3 -18.9 2201 15 337 304 1919 163111 8Sa 2153 50 327 92 2351 54 13 1.66 t52 77.2 29.4 13.4 16.8 2548 44 53 212 3108 16321027We 2246 50 348 123 2359 50 16 0.41 35 79.6 30.0 10.8 13.9 2513 45 41 170 3049 1634 314Tu 2012 24 299 183 2152 34 324 0.87 91 78.7 29.8 49.6 2.7 2332 39 354 271 1723 1635 3 3Sa 1938 22 289 143 2134 36 317 1.47 t48 77.6 29.5 54.6 6.5 2329 43 353 314 1705 1635 828Tu 206 19 40 51 352 7 63 1.51 t46 90.8 32.9 317.2 -9.7 537 -8 84 193 444 1636 220We 2240 45 336 69 2334 47 355 0.22 14 81.6 30.6 24.7 10.1 2428 46 14 350 1639 1636 816Sa 1604-25 259 180 1629-21 264 0.05 2 84.8 31.3 128.3 -12.7 1654-18 269 207 1851 16371231Th 1111-15 174 127 1241-14 194 0.90 93 92.1 33.5 185.8 23.6 1411 -9 214 271 1539 16381221Tu 112 55 44 60 300 41 74 1.60 t48 87.8 32.3 329.8 23.3 447 25 95 242 754 16391210Sa 1043-16 169 23 1139-16 182 0.24 16 81.3 30.6 198.7 22.2 1235-15 195 341 1536 16411018Fr 1838 20 280 157 1959 31 297 0.54 51 81.2 30.4 71.2 10.6 2121 41 318 234 1625 1642 415Tu 101 25 24 99 251 15 50 1.59 t49 85.9 31.6 332.2 -9.6 441 0 72 241 443 164210 8We 252 25 63 37 441 10 85 1.78 t50 87.7 32.2 301.6 5.8 631 -6 106 219 553 1643 927Su 1814 7 279 63 1927 18 294 0.51 48 92.4 33.4 81.1 1.0 2040 27 310 327 1725 1645 210Fr 1841 18 272 107 2013 31 291 0.78 81 83.3 31.1 75.3 13.5 2145 43 315 345 1632 1646 131We 520 17 96 68 706 2 115 1.61 t48 89.6 32.8 272.0 17.5 853-11 136 246 721 1646 727Fr 1616-29 266 102 1806-13 287 1.17 t33 78.6 29.6 105.0 -19.5 1956 2 307 314 1937 1647 120Su 2117 47 303 182 2222 54 324 0.40 34 92.3 33.5 42.5 20.8 2327 58 349 232 1536 16481130Mo 556 11 109 358 726 -1 126 0.68 69 79.7 30.1 261.0 21.3 856-10 144 272 721 1649 526We 201 9 36 88 348 -3 57 1.75 t50 92.2 33.2 317.1 -21.1 534-17 76 242 326 16491119Fr 541 11 106 36 738 -4 129 1.70 t52 77.1 29.4 256.9 19.7 936-15 154 231 706 1650 515Su 1932 1 306 102 2054 9 323 0.68 69 92.5 33.3 60.3 -19.7 2216 15 341 341 1920 165011 8Tu 635 1 116 81 752 -8 131 0.45 40 79.8 30.1 252.8 17.3 908-15 147 179 646 1652 325Mo 340 16 65 120 517 2 84 0.79 82 78.6 29.7 297.5 -1.6 653-13 102 228 531 1652 917Tu 1751 1 276 65 1919 13 293 0.84 88 92.8 33.5 84.1 -2.4 2047 25 312 301 1747 1653 314Fr 308 24 59 78 504 7 83 1.54 t50 77.8 29.5 301.3 2.3 700-10 105 272 553 1654 3 3Tu 632 -3 103 23 731-12 115 0.27 19 82.0 30.7 265.0 6.0 830-19 127 327 613 1654 827Th 2258 27 350 136 2343 28 2 0.16 9 84.3 31.2 19.0 -9.0 2429 27 15 168 2900 1656 111Tu 2003 38 284 176 2133 50 307 0.89 93 92.0 33.4 54.1 22.3 2303 58 339 267 1522 16561231Su 952-12 156 76 1140-16 180 1.61 t48 87.5 32.2 200.9 22.9 1328-13 204 304 1546 1657 625Mo 1952 0 311 139 2133 9 331 1.06 t19 85.7 31.4 52.1 -23.0 2314 14 353 241 1953 16571220Th 1901 30 273 76 1957 39 284 0.24 16 81.0 30.5 75.3 22.7 2054 47 298 12 1518 1659 5 6Tu 1933 3 305 94 2056 12 322 0.69 71 91.4 33.0 60.0 -17.3 2219 17 341 332 1906 16591030Th 234 35 65 88 352 24 82 0.49 45 81.4 30.5 312.8 14.4 510 12 97 171 640 16601018Mo 1101-29 175 70 1250-26 204 1.84 t50 88.0 32.3 178.9 10.0 1439-16 230 284 1638 ------------------------------------------------------------------------------------------Table 1 - page 15 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1661 414Th 1549-24 254 203 1646-16 265 0.23 16 79.6 29.9 123.8 -9.0 1743 -7 276 263 1832 166110 8Sa 222 29 55 359 339 19 72 0.58 57 92.4 33.4 317.4 5.3 455 8 87 259 554 1663 222Th 253 33 59 37 423 20 79 0.75 78 83.7 31.2 312.6 9.7 554 6 96 284 638 1663 818Sa 1940 7 303 137 2120 18 324 0.96 98 82.6 30.7 55.8 -12.5 2300 24 349 234 1847 1664 211Mo 1356-19 213 131 1543 -8 236 1.63 t48 89.9 32.8 143.1 14.1 1729 6 256 314 1644 1664 8 6We 2246 19 347 71 2440 19 15 1.32 t42 78.4 29.5 6.4 -16.6 2633 11 41 250 2815 1665 131Sa 604 11 104 113 710 2 116 0.42 36 92.4 33.5 271.3 18.0 816 -7 129 200 725 1666 616We 1933 -2 307 195 2020 3 316 0.18 11 87.5 31.9 70.1 -22.5 2107 7 325 235 1950 16661211Sa 1406 -9 217 63 1535 1 234 0.66 66 79.4 30.1 139.8 22.5 1704 13 250 339 1526 16671130We 1333-12 211 97 1531 1 235 1.73 t52 77.0 29.4 139.6 21.8 1729 16 256 293 1525 1668 526Sa 301 2 48 42 428 -9 64 0.80 84 92.3 33.3 306.8 -21.8 556-21 80 280 320 16681118Su 1433 -7 225 145 1552 3 240 0.49 45 79.9 30.2 133.2 20.2 1711 13 255 243 1532 1670 929Mo 200 29 46 358 325 19 66 0.76 79 92.8 33.5 321.7 1.9 449 7 83 240 541 1671 918Fr 1737 -1 274 104 1925 15 294 1.70 t49 90.1 32.7 82.2 -1.6 2112 28 319 259 1742 1672 313Su 1415-28 224 89 1520-20 239 0.33 26 82.4 30.8 146.9 1.8 1626-12 253 30 1746 1672 9 7We 606-11 94 83 703-19 105 0.26 18 83.9 31.1 268.2 -5.1 800-26 118 149 454 1674 122Mo 454 23 93 100 623 10 109 0.88 92 91.9 33.4 282.4 20.1 753 -2 126 225 738 1674 717Tu 1945 0 308 80 2130 10 329 1.05 t18 80.2 30.0 54.0 -21.5 2315 15 353 284 1947 1675 111Fr 1833 24 266 138 2021 40 288 1.61 t48 87.2 32.1 71.9 21.6 2210 53 319 319 1532 1675 7 7Su 252 3 44 71 436 -9 64 1.21 t33 86.1 31.6 307.0 -22.3 620-24 83 196 323 1676 1 1We 319 38 76 0 416 29 88 0.24 17 80.7 30.4 311.9 22.3 513 21 99 300 747 1677 517Mo 315 2 52 23 433 -8 66 0.58 56 91.2 33.0 305.7 -20.2 550-19 80 282 331 167711 9Tu 1037-20 170 121 1152-20 188 0.46 41 81.6 30.6 192.8 17.8 1308-17 206 227 1552 1678 5 6Fr 1552-28 261 142 1744-12 283 1.81 t52 85.3 31.4 108.1 -16.7 1936 3 304 311 1912 16781029Sa 1917 28 286 114 2106 43 313 1.85 t50 88.2 32.4 54.5 13.8 2255 51 349 263 1604 1679 425Tu 2240 23 346 167 2348 24 4 0.34 27 79.5 29.9 17.5 -12.7 2456 22 21 216 2828 16791019Th 1039-29 169 26 1159-29 190 0.64 64 92.4 33.4 191.8 9.4 1318-24 211 314 1644 1681 829Fr 250 15 51 79 426 3 71 0.83 87 82.2 30.6 308.5 -8.7 601-11 89 182 447 1682 221Sa 2226 45 332 129 2413 47 8 1.66 t48 90.3 32.9 15.3 10.2 2559 40 43 255 3048 1682 818Tu 521 -9 79 26 717-26 101 1.46 t48 78.2 29.5 266.6 -13.2 913-41 129 238 417 1683 211Th 1445-14 224 179 1552 -6 238 0.44 38 92.4 33.5 140.8 14.6 1700 3 251 270 1641 1684 627Tu 306 2 47 141 330 -1 52 0.05 1 87.9 32.0 323.1 -22.4 355 -4 56 162 324 16841221Th 2219 57 327 65 2347 60 5 0.64 64 79.2 30.0 18.1 22.9 2516 55 42 279 3202 1685 616Sa 1702-23 279 151 1846 -9 298 1.49 t45 92.7 33.3 93.7 -23.2 2030 3 317 292 2001 16851210Mo 2132 53 312 111 2329 60 0 1.74 t53 77.0 29.4 21.2 23.1 2527 53 48 229 1510 16861129Fr 2240 58 341 133 2400 59 16 0.52 48 80.2 30.2 12.2 22.4 2520 53 47 181 3150 1688 415Th 1810 -3 283 197 1937 9 300 0.60 58 78.4 29.6 80.9 -9.7 2104 19 319 278 1828 1689 4 4Mo 1739 -5 274 153 1936 12 298 1.71 t53 78.2 29.6 81.5 -6.2 2134 24 324 323 1811 1689 929Th 133 32 40 41 321 20 66 1.78 t50 89.7 32.7 322.3 2.6 509 5 88 200 543 1690 324Fr 2152 30 328 87 2303 34 349 0.41 35 82.9 30.9 30.4 -2.5 2414 34 10 344 1741 1690 918Mo 1322-34 216 136 1428-27 232 0.35 28 83.4 31.0 156.0 -0.9 1534-19 247 221 1738 1692 2 2Sa 1339-17 208 162 1509 -9 227 0.86 90 91.8 33.4 151.7 17.2 1638 1 245 295 1627 1692 728Mo 231 8 40 15 411 -3 60 0.91 94 80.4 30.1 314.0 -19.3 551-17 79 241 349 1693 122Th 310 38 71 63 458 22 93 1.62 t49 86.9 32.1 303.5 19.4 647 6 112 260 734 1694 111Mo 1135-18 178 44 1233-17 192 0.25 17 80.4 30.3 188.8 20.9 1331-14 205 1 1601 1694 7 7We 134 11 27 139 155 10 32 0.04 1 92.0 33.1 347.0 -21.6 216 8 36 156 336 16951120Su 1849 29 274 173 2002 40 290 0.43 38 81.9 30.7 71.0 20.6 2115 49 309 244 1523 1696 516We 2306 17 355 99 2458 15 21 1.78 t52 84.9 31.3 359.5 -19.5 2650 6 45 252 2742 169611 9Fr 342 27 82 41 530 11 103 1.81 t50 88.5 32.4 288.5 17.2 719 -3 123 226 653 1697 5 6Mo 525-13 79 111 643-24 94 0.46 41 79.3 29.8 273.5 -16.1 800-35 110 195 357 16971029Tu 1905 26 284 74 2026 37 302 0.68 69 92.4 33.5 64.6 13.3 2147 46 325 318 1608 1699 315Su 1858 12 284 104 2024 23 303 0.67 67 84.6 31.4 71.1 1.2 2150 32 324 349 1734 1700 3 5Fr 651 -6 107 76 837-20 129 1.71 t49 90.6 33.0 248.7 6.1 1024-30 155 267 612 1700 829Su 1204-48 191 74 1401-39 228 1.59 t51 78.0 29.5 164.8 -9.4 1558-23 255 298 1834 1701 222Tu 2320 48 350 161 2430 47 14 0.47 42 92.4 33.5 11.3 10.7 2539 42 37 215 3051 1703 1 3We 630 9 114 11 758 -2 130 0.63 62 78.9 29.9 256.7 22.3 926-11 148 290 743 1703 629Fr 031 13 13 101 213 7 35 1.36 t40 92.8 33.4 342.5 -23.0 355 -4 55 223 322 17031223Su 532 17 105 45 730 2 126 1.76 t53 77.0 29.4 262.4 23.5 928-10 150 244 747 1704 617Tu 1749-17 288 111 1925 -5 306 1.06 t19 92.0 33.1 83.6 -23.9 2102 5 324 326 2004 17041211Th 650 6 120 89 811 -4 136 0.54 51 80.4 30.3 250.5 23.7 933-11 153 197 740 1706 428We 112 20 26 146 232 13 45 0.47 43 78.4 29.6 336.7 -13.3 351 4 61 213 420 17061021Th 1839 19 280 60 1958 30 297 0.64 63 92.6 33.5 71.9 10.1 2117 40 317 310 1631 1707 417Su 042 25 19 105 240 15 47 1.82 t53 78.5 29.6 335.0 -10.2 437 0 71 261 439 1708 4 5Th 520 -4 83 34 638-15 98 0.50 46 83.3 30.9 275.9 -6.7 755-27 114 311 457 1708 929Sa 2048 31 313 138 2201 37 333 0.43 37 82.9 30.9 42.0 3.3 2313 41 356 194 1710 1710 213Th 2222 48 327 168 2350 51 359 0.84 88 91.7 33.3 21.4 13.8 2518 47 31 243 1615 1711 2 3Tu 1142-22 179 105 1331-19 205 1.64 t49 86.6 32.0 175.8 16.5 1520 -9 230 329 1636 1711 729We 1702-21 275 122 1850 -6 295 1.49 t46 86.8 31.8 93.8 -18.7 2039 8 316 265 1931 1712 123Sa 1948 33 283 89 2047 41 296 0.26 18 80.2 30.3 66.1 18.8 2146 48 313 17 1553 1713 6 8Th 1829-11 296 71 1928 -4 306 0.31 24 90.8 32.8 82.6 -23.8 2028 3 318 353 2000 171312 2Sa 305 38 77 97 417 27 91 0.42 36 82.2 30.8 308.2 22.7 529 17 105 177 739 1714 529Tu 613-25 85 47 805-41 107 1.65 t50 84.6 31.2 253.0 -21.7 957-55 138 254 315 17141121We 1214-18 194 94 1402-11 218 1.79 t50 88.7 32.5 161.1 20.0 1550 1 239 295 1539 ------------------------------------------------------------------------------------------Table 1 - page 16 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 17151111Mo 337 27 80 2 500 15 96 0.72 73 92.4 33.5 296.1 16.6 623 4 112 262 652 1717 327Sa 251 21 53 36 414 10 71 0.61 59 85.1 31.5 312.8 -3.1 536 -3 86 292 521 1717 920Mo 1729 -1 271 152 1854 12 288 0.61 60 81.3 30.4 89.5 -0.4 2020 23 306 240 1733 1718 316We 1508-21 237 142 1655 -7 259 1.76 t49 90.9 33.0 123.6 1.8 1841 8 280 321 1743 1718 9 9Fr 1854 7 290 105 2052 22 316 1.71 t53 77.8 29.4 61.2 -5.3 2250 31 346 265 1802 1719 3 6Mo 747-13 119 121 859-22 134 0.51 47 92.4 33.5 243.4 6.6 1011-29 152 223 614 1719 829Tu 2014 13 309 50 2124 21 324 0.37 30 79.5 29.9 54.4 -10.1 2234 25 342 318 1832 1721 113Mo 1441 -8 222 78 1608 2 239 0.61 60 78.7 29.9 135.3 20.8 1735 14 255 355 1552 1722 1 2Fr 1335-11 208 108 1533 0 231 1.77 t53 77.1 29.4 143.0 22.9 1730 15 253 308 1533 1722 629Mo 109 10 22 57 249 3 43 1.20 t32 91.8 33.1 333.4 -23.7 429 -9 61 258 315 17221222Tu 1506 -1 227 158 1628 9 242 0.55 52 80.7 30.4 127.6 24.1 1750 20 257 261 1517 172411 1We 309 29 72 345 426 18 88 0.59 57 92.4 33.5 304.7 13.8 543 7 102 251 638 17251021Su 1746 12 269 101 1934 28 291 1.83 t50 88.9 32.5 77.6 10.9 2123 42 318 269 1626 17261011Fr 423 13 83 71 540 2 98 0.49 45 82.5 30.8 286.4 7.5 658 -9 113 160 557 1728 225We 657 -3 110 116 824-15 127 0.80 84 91.7 33.3 252.6 9.9 951-24 147 243 636 1728 819Th 1621-23 263 62 1748-10 280 0.63 63 80.9 30.2 108.9 -13.2 1916 3 296 319 1855 1729 213Su 2008 31 291 145 2157 44 320 1.66 t49 86.3 31.9 49.3 13.0 2347 50 357 303 1627 1729 8 9Tu 016 20 10 68 205 14 36 1.63 t49 87.2 31.9 344.9 -15.9 355 3 59 206 417 1730 2 3Fr 355 29 77 16 456 20 90 0.27 20 79.9 30.2 304.4 15.9 556 11 101 312 712 1730 729Sa 1551-31 260 167 1650-23 271 0.31 23 92.3 33.3 123.7 -18.0 1748-14 282 232 1927 1731 620We 204 6 34 358 250 2 43 0.17 10 90.5 32.7 332.9 -24.4 335 -3 51 299 308 17311213Th 1127-15 180 142 1238-13 196 0.41 35 82.4 30.9 184.2 23.9 1349 -9 211 241 1523 1732 6 8Su 1315-55 225 107 1506-41 255 1.51 t48 84.2 31.1 148.1 -23.1 1657-25 277 321 2004 173212 1Mo 2052 48 302 124 2240 58 339 1.77 t50 89.0 32.6 32.6 22.0 2427 57 26 248 1509 1733 528Th 1834 -8 295 167 2008 4 313 0.74 76 79.0 29.7 72.2 -21.0 2142 12 333 254 1935 17331121Sa 1217-18 194 55 1341-13 213 0.74 76 92.4 33.5 166.5 19.4 1505 -5 230 331 1544 173510 2Su 059 37 31 100 219 29 52 0.52 48 80.9 30.3 337.4 3.9 339 19 71 171 550 1736 326Mo 2319 35 354 113 2506 32 25 1.83 t50 91.2 33.1 0.0 -2.6 2652 21 52 257 2929 1736 920Th 153 27 43 48 351 13 69 1.81 t53 77.7 29.4 315.6 -1.1 549 -4 93 215 524 1737 316Sa 1607-13 249 187 1722 -3 264 0.56 53 92.4 33.4 116.9 2.2 1837 8 278 280 1740 1737 9 9Mo 305 15 56 355 424 5 72 0.49 44 79.7 29.9 308.5 -6.0 543 -7 88 262 500 1739 124Sa 2248 54 336 71 2414 55 11 0.59 58 78.6 29.8 14.6 18.5 2540 49 43 295 3137 1739 720Mo 1533-36 258 150 1709-22 277 1.09 t22 93.0 33.4 119.2 -20.3 1845 -8 294 276 1947 1740 113We 2136 50 310 125 2333 59 355 1.79 t53 77.1 29.5 24.0 21.5 2531 53 42 247 1530 1741 1 1Su 2324 61 354 137 2447 58 30 0.57 54 80.9 30.5 4.4 23.6 2610 50 58 191 3208 1742 519Sa 1504-38 252 209 1559-30 263 0.20 13 78.3 29.5 134.6 -19.1 1653-22 274 266 1933 17421112Mo 1147-22 187 28 1302-18 205 0.55 53 92.3 33.5 176.0 17.1 1416-12 222 319 1556 1743 5 8We 1430-40 242 154 1626-24 268 1.59 t51 79.0 29.7 127.6 -17.0 1822 -8 290 321 1918 174311 2Sa 204 39 57 31 352 24 82 1.79 t50 88.5 32.4 312.9 14.6 541 8 103 210 643 1744 426Su 2000 9 309 107 2129 17 328 0.71 73 84.3 31.1 51.9 -14.4 2258 22 350 339 1845 17441021We 1205-27 193 116 1326-22 213 0.55 52 82.0 30.7 169.3 11.5 1447-13 231 228 1624 1746 3 7Mo 1526-16 238 186 1652 -5 255 0.76 79 91.6 33.2 125.1 5.7 1817 7 272 300 1726 1746 830Tu 2328 27 358 17 2448 26 20 0.51 47 81.1 30.3 3.3 -9.4 2608 20 40 265 2856 1747 225Sa 427 19 80 74 617 2 101 1.69 t50 86.0 31.8 284.0 9.1 807-13 123 271 633 1748 214We 1154-26 182 60 1258-25 198 0.30 22 79.7 30.1 183.9 12.4 1401-21 214 13 1659 1748 8 8Th 2315 21 354 121 2423 21 11 0.43 38 92.5 33.3 10.1 -15.1 2531 18 28 179 2828 17491223Tu 1951 39 282 189 2102 49 299 0.41 35 82.7 31.0 59.6 24.2 2213 57 322 251 1505 1750 619Fr 2014 2 316 98 2203 10 338 1.36 t43 83.9 31.0 44.5 -23.7 2352 13 3 278 1956 17501213Su 534 16 106 55 722 2 126 1.76 t50 89.2 32.7 263.3 23.2 909 -9 147 248 740 1751 6 9We 101 12 21 107 242 4 43 0.89 92 78.9 29.6 334.2 -22.4 423 -8 62 202 322 175112 2Th 2102 48 305 83 2227 57 334 0.76 78 92.3 33.5 35.8 21.4 2351 58 10 298 1514 1753 417Tu 1821 -3 286 93 1933 7 301 0.45 40 86.1 31.7 81.4 -11.4 2045 15 316 0 1837 17531012Fr 836-21 136 98 951-27 155 0.44 38 80.5 30.2 223.6 8.2 1106-30 175 201 550 1754 4 7Su 721-22 108 70 908-36 132 1.86 t50 91.6 33.1 238.6 -6.9 1055-45 164 277 452 1755 328Fr 017 35 12 143 136 30 34 0.62 61 92.4 33.4 352.5 -2.1 255 22 53 216 531 1757 2 4Fr 652 2 112 22 817 -9 129 0.57 55 78.4 29.8 254.3 15.5 941-18 147 305 708 1757 730Sa 2307 19 352 116 2440 18 15 0.96 98 93.0 33.4 6.5 -17.8 2612 12 36 209 2809 1758 124Tu 536 16 101 58 734 0 122 1.81 t53 77.2 29.5 264.7 19.2 932-13 146 257 731 1758 720Th 1552-33 263 112 1736-18 282 1.47 t44 91.2 32.9 112.4 -20.9 1921 -4 301 311 1950 1759 113Sa 743 0 127 105 906 -9 143 0.58 56 81.3 30.6 240.7 22.1 1030-15 161 219 744 1760 529Th 2204 14 339 194 2233 15 345 0.06 2 78.2 29.5 36.1 -21.0 2303 16 352 214 1929 17601122Sa 2028 43 298 61 2142 51 319 0.53 49 92.2 33.5 46.5 19.7 2255 57 346 308 1532 1761 518Mo 2117 12 328 141 2312 17 355 1.45 t47 79.3 29.8 26.2 -19.6 2506 14 22 262 1914 17611112Th 1027-20 167 57 1215-20 194 1.75 t50 88.1 32.3 187.3 17.8 1404-13 218 276 1551 1762 5 8Sa 312 5 53 48 445 -8 70 0.84 87 84.7 31.3 302.5 -17.6 619-22 87 285 349 176211 1Mo 1955 35 294 143 2119 45 316 0.59 58 81.6 30.6 50.8 15.2 2243 52 345 213 1558 1764 317Sa 2348 39 2 157 2511 35 27 0.70 72 91.4 33.2 359.6 1.4 2634 27 49 233 2950 1764 910Mo 646-17 101 333 758-27 117 0.40 34 81.4 30.4 255.0 -5.4 910-35 134 266 452 1765 3 7Th 1238-32 196 125 1429-24 225 1.74 t51 85.8 31.7 160.6 5.0 1619-11 249 337 1736 1765 830Fr 1506-30 245 97 1655-14 267 1.87 t51 87.8 32.1 121.2 -8.8 1845 3 288 278 1828 1766 224Mo 1946 24 289 98 2053 33 305 0.34 26 79.6 30.0 64.9 8.6 2200 40 323 14 1656 1766 820We 646-21 97 71 801-32 113 0.55 53 92.6 33.3 255.1 -11.8 917-41 131 171 416 ------------------------------------------------------------------------------------------Table 1 - page 17 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1768 1 4Mo 419 30 90 110 529 19 103 0.41 34 83.1 31.0 294.2 23.5 640 9 115 193 756 1768 630Th 309 0 47 31 456-13 67 1.21 t34 83.5 30.9 301.9 -23.5 642-28 86 239 312 17681223Fr 1420 -7 218 124 1607 5 239 1.76 t49 89.5 32.8 133.3 23.5 1754 19 258 315 1523 17691213We 552 13 109 16 717 2 124 0.77 80 92.3 33.5 264.5 22.6 842 -7 141 284 735 1771 429Mo 159 15 37 27 304 8 51 0.36 29 86.5 31.8 328.1 -15.1 409 0 64 302 407 17711023We 1621 1 251 164 1730 10 265 0.37 30 80.1 30.2 108.4 12.2 1840 21 278 241 1618 1772 417Fr 1518-29 249 138 1705-14 271 1.77 t50 91.8 33.2 118.7 -10.9 1851 1 291 324 1843 17721011Su 1617 -5 253 115 1814 13 276 1.65 t52 77.4 29.4 98.0 7.5 2012 30 301 280 1646 1773 930Th 1722 1 268 72 1853 14 286 0.69 70 80.0 30.1 89.4 2.6 2023 27 305 321 1715 1775 215We 1448-16 226 86 1611 -6 243 0.53 50 78.3 29.7 135.8 12.0 1734 6 259 7 1652 1775 811Fr 648-24 95 73 816-36 113 0.83 87 93.1 33.5 252.2 -14.8 943-46 136 198 402 1776 2 4Su 1332-19 207 117 1530 -8 232 1.79 t53 77.4 29.5 146.2 16.2 1727 8 255 320 1629 1776 730Tu 2315 18 354 76 2502 16 20 1.60 t48 90.9 32.9 1.1 -18.4 2648 8 43 243 2804 1777 123Th 1600 0 237 173 1724 11 253 0.60 58 81.6 30.6 117.2 19.9 1848 23 268 277 1559 177812 4Fr 515 17 102 350 628 7 115 0.51 47 92.0 33.4 275.9 21.5 740 -2 128 273 727 1779 530Su 400 -5 60 87 552-21 80 1.31 t41 79.6 29.9 286.3 -21.5 744-37 101 228 323 17791123Tu 1856 30 276 108 2044 45 301 1.72 t50 87.7 32.2 60.6 20.4 2233 56 337 272 1528 17801112Su 353 26 85 70 519 14 102 0.63 62 81.2 30.5 291.0 18.5 646 2 118 173 702 1782 329Fr 803-24 118 128 923-34 137 0.64 63 91.3 33.1 235.8 -2.9 1043-40 160 245 520 1782 921Sa 1414-30 229 32 1517-22 243 0.31 23 81.6 30.5 144.3 -1.2 1621-12 256 334 1741 1783 318Tu 2040 26 308 146 2231 36 337 1.79 t51 85.5 31.6 39.3 0.7 2422 37 11 294 1728 1783 910We 2244 31 347 66 2433 31 18 1.76 t50 88.1 32.2 6.0 -4.8 2622 23 46 218 2920 1784 3 7Su 328 23 65 33 439 13 79 0.38 32 79.4 30.0 307.6 4.4 551 2 93 313 605 1784 830Mo 1425-35 235 133 1546-24 253 0.67 67 92.6 33.4 138.3 -8.1 1707-12 269 240 1823 1786 114Sa 1246-15 195 167 1356-12 210 0.40 34 83.4 31.1 168.7 21.9 1506 -5 225 263 1553 1787 1 3We 2306 60 346 114 2453 57 32 1.75 t49 89.7 32.8 3.0 22.8 2640 45 65 241 3158 1787 630Sa 1349-52 234 134 1539-37 261 1.20 t35 78.6 29.6 140.9 -22.9 1730-21 282 281 2002 17871224Mo 1443 -5 223 88 1608 5 239 0.78 81 92.3 33.5 132.9 22.8 1734 16 255 353 1528 178911 3Tu 012 51 22 120 117 46 44 0.31 24 79.7 30.1 351.6 15.9 222 39 62 168 656 1790 428We 2308 22 354 100 2453 20 21 1.67 t49 92.1 33.2 0.9 -14.6 2639 11 45 263 2814 17901022Fr 2343 48 10 76 2540 40 48 1.58 t51 77.3 29.4 346.0 11.5 2737 25 76 210 3029 1791 418Mo 1615-21 261 179 1741 -8 277 0.78 81 92.2 33.3 109.7 -10.4 1907 4 294 284 1838 17911012We 049 40 30 20 223 31 56 0.77 79 80.2 30.1 336.0 6.8 357 18 76 252 604 1793 225Mo 2239 43 337 73 2359 45 4 0.49 45 78.2 29.7 18.3 8.0 2519 41 30 315 3033 1793 821We 1432-37 238 146 1555-25 256 0.72 73 93.0 33.5 136.7 -11.2 1718-13 272 255 1846 1794 214Fr 2124 41 311 131 2321 49 349 1.76 t53 77.6 29.5 28.4 12.7 2519 46 31 267 1630 1794 811Mo 642-23 93 34 829-38 116 1.72 t50 90.5 32.8 248.9 -15.3 1017-50 146 242 359 1795 2 4We 014 54 11 136 140 48 42 0.62 61 82.0 30.7 353.8 16.9 305 38 65 205 726 1795 731Fr 1954 3 308 51 2050 9 319 0.24 17 84.4 31.1 64.1 -19.0 2146 13 331 339 1931 17961214We 1405 -9 216 57 1517 -2 230 0.49 45 91.9 33.4 144.8 22.5 1628 7 243 346 1529 179712 4Mo 329 34 82 31 518 18 102 1.70 t50 87.3 32.2 293.3 22.2 706 3 122 228 736 1798 529Tu 1725-19 283 121 1907 -5 302 1.10 t25 85.6 31.5 87.4 -22.1 2049 6 322 333 1947 17981123Fr 1157-17 189 118 1325-13 209 0.65 65 80.9 30.4 170.2 21.1 1453 -5 227 242 1530 1800 4 9We 1610-19 257 200 1726 -9 272 0.55 53 91.2 33.0 114.3 -7.0 1842 2 286 289 1824 180010 2Th 2152 36 330 17 2246 39 347 0.22 15 81.8 30.6 31.1 3.0 2341 40 4 300 1713 1801 330Mo 432 7 75 83 624-10 96 1.84 t51 85.2 31.5 280.2 -3.6 815-26 119 266 517 1801 922Tu 630-12 102 18 819-26 126 1.67 t49 88.4 32.3 248.6 -0.6 1007-36 154 231 511 1802 911Sa 2211 30 337 111 2337 33 2 0.77 80 92.7 33.4 19.7 -4.0 2502 30 26 189 2927 1804 126Th 2112 45 302 195 2221 52 324 0.40 33 83.8 31.2 43.2 19.5 2331 56 351 245 1544 1804 722Su 1700-23 276 83 1838 -9 293 0.90 94 82.7 30.7 97.2 -20.7 2016 3 312 312 1945 1805 115Tu 754 -2 129 78 941-13 150 1.75 t49 90.0 32.9 232.3 21.2 1128-18 175 279 738 1805 711Th 2011 3 313 120 2205 12 337 1.36 t44 78.5 29.5 45.0 -21.9 2359 15 4 239 1948 1806 1 4Sa 2336 60 0 66 2502 56 35 0.78 81 92.2 33.5 0.8 22.1 2627 46 62 282 3152 1807 521Th 1708-21 279 70 1749-15 287 0.14 7 87.5 32.0 106.6 -21.0 1831 -9 294 21 1941 18071115Su 809 -9 136 112 910-14 149 0.27 19 79.4 30.0 233.6 19.1 1010-18 162 191 656 180811 3Th 717 -6 123 55 914-18 148 1.52 t49 77.2 29.4 232.5 15.2 1110-23 177 246 631 1809 430Su 003 23 9 130 133 18 31 0.88 92 92.1 33.3 351.2 -14.0 303 9 50 221 417 18091023Mo 826-18 135 16 1003-26 159 0.83 87 80.3 30.2 220.6 10.8 1139-27 184 291 603 1811 310Su 621 -4 100 21 738-14 115 0.44 38 78.1 29.6 263.1 3.8 854-24 132 309 600 1811 9 2Mo 2224 28 341 128 2342 30 2 0.61 60 93.0 33.5 19.3 -7.3 2500 27 23 197 2909 1812 227Th 507 12 88 64 705 -5 110 1.72 t52 77.8 29.6 272.1 8.7 902-20 135 263 630 1812 822Sa 1413-40 233 104 1601-25 258 1.84 t50 90.2 32.7 135.4 -11.8 1749 -9 278 294 1849 1813 215Mo 824-12 130 115 951-20 149 0.65 65 82.4 30.8 231.1 13.3 1117-25 170 238 654 1813 812Th 245 10 45 358 353 2 59 0.37 30 84.0 31.0 318.2 -15.9 500 -7 72 273 411 18141226Mo 2257 59 343 49 2408 59 14 0.49 44 91.8 33.4 13.2 22.6 2519 54 42 288 3203 1815 621We 1722-21 282 164 1906 -6 301 1.01 t 9 80.2 30.0 88.8 -23.1 2050 5 321 274 1958 18151216Sa 1206-15 189 82 1355 -9 213 1.69 t49 86.9 32.1 165.2 23.2 1544 2 234 300 1526 1816 610Mo 029 13 14 72 214 6 36 1.25 t36 86.1 31.6 341.1 -23.3 359 -6 57 265 315 181612 4We 2006 42 289 155 2135 53 313 0.67 67 80.5 30.3 48.8 22.9 2304 60 348 226 1511 1818 421Tu 010 26 10 159 120 22 28 0.46 41 91.0 33.0 355.0 -10.9 231 16 44 221 436 18181014We 539 2 98 318 625 -5 107 0.15 9 82.1 30.7 275.6 7.2 711-11 116 275 555 ------------------------------------------------------------------------------------------Table 1 - page 18 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1819 410Sa 1216-45 195 130 1408-37 228 1.76 t51 84.9 31.4 163.5 -7.7 1559-23 254 331 1837 181910 3Su 1426-23 231 81 1613 -9 253 1.59 t48 88.6 32.4 129.1 3.7 1801 7 274 288 1711 1820 329We 1821 3 281 110 1943 14 298 0.52 49 79.1 29.8 80.2 -4.1 2104 23 316 10 1800 1820 922Fr 606 -8 98 57 735-20 116 0.86 90 92.7 33.4 259.2 0.2 904-30 137 183 515 1822 2 6We 535 14 98 126 643 5 110 0.38 32 84.2 31.3 278.1 16.5 752 -5 123 209 717 1822 8 2Fr 2357 18 4 30 2530 15 26 0.76 78 82.3 30.6 354.2 -18.3 2702 7 47 257 2805 1823 126Su 1638 5 245 150 1825 19 265 1.74 t49 90.3 33.0 102.1 18.9 2011 35 287 325 1601 1823 723We 236 7 41 57 432 -7 64 1.52 t50 78.3 29.5 308.4 -20.1 629-23 86 202 342 1824 116Fr 828 -7 135 43 954-14 153 0.79 82 92.2 33.5 228.8 20.5 1120-18 173 317 732 1824 711Su 430 -8 64 108 515-14 72 0.14 7 79.3 29.8 297.4 -21.3 559-20 80 148 329 1825 6 1We 051 12 18 359 106 11 22 0.02 0 87.9 32.1 357.7 -23.0 122 10 25 338 319 18251125Fr 1612 6 244 181 1709 14 254 0.23 16 79.1 30.0 114.4 21.6 1806 22 264 245 1522 1826 521Su 1432-43 246 120 1615-29 268 1.45 t44 92.6 33.3 130.2 -20.4 1759-14 287 328 1943 18261114Tu 1500 -5 232 122 1656 10 254 1.47 t48 77.2 29.4 117.1 18.4 1852 27 276 290 1541 182711 3Sa 1613 1 249 82 1752 15 267 0.88 92 80.5 30.3 103.1 14.5 1930 30 287 326 1604 1829 320Fr 1357-32 221 79 1508-24 238 0.37 30 78.1 29.6 149.7 -0.6 1619-14 253 16 1757 1829 913Su 621-12 98 82 733-22 113 0.51 47 92.9 33.5 260.4 -3.2 846-31 130 177 501 1830 3 9Tu 1246-32 198 114 1443-23 228 1.67 t52 78.0 29.6 157.0 4.5 1640 -8 253 328 1735 1830 9 2Th 2150 25 332 93 2338 29 1 1.81 t50 89.8 32.6 20.4 -7.8 2526 25 30 233 2907 1831 226Sa 1628 -5 249 180 1756 8 266 0.69 71 82.8 30.9 109.4 9.4 1925 20 283 285 1702 1833 1 6Su 749 -2 128 12 900 -9 142 0.48 43 91.6 33.3 241.6 21.7 1010-14 157 305 736 1833 7 2Tu 005 14 7 119 143 10 29 0.86 90 80.5 30.1 350.1 -22.6 322 1 49 209 328 18331226Th 2044 46 296 118 2233 58 331 1.68 t49 86.6 32.0 37.1 23.3 2422 60 19 260 1513 18341216Tu 419 28 92 78 548 15 108 0.68 69 80.2 30.3 286.8 23.9 717 4 124 189 751 1835 610We 2306 13 354 31 2336 13 0 0.07 3 92.0 33.1 20.6 -24.0 2405 13 7 349 2714 18361024Mo 1338-21 216 15 1415-18 225 0.10 4 82.3 30.7 157.8 11.1 1451-13 232 345 1629 1837 420Th 1949 10 305 153 2141 21 330 1.66 t50 84.6 31.3 49.6 -11.6 2332 25 358 291 1830 18371013Fr 2230 43 343 62 2417 44 19 1.52 t46 88.9 32.5 7.4 7.8 2604 35 51 224 3019 1838 410Tu 132 24 32 57 259 15 53 0.61 60 79.0 29.8 330.4 -8.3 426 3 70 304 450 183810 3We 1410-24 227 118 1541-13 247 0.94 97 92.7 33.5 136.7 4.4 1713 1 264 249 1707 1840 217Mo 1356-20 213 189 1502-14 228 0.37 30 84.6 31.4 153.3 12.9 1609 -6 242 276 1654 1840 813Th 658-25 96 345 823-37 114 0.61 60 81.9 30.5 250.6 -15.2 948-47 138 262 401 1841 2 6Sa 121 49 36 96 307 36 66 1.72 t49 90.6 33.0 331.9 15.8 454 20 88 250 714 1842 126We 1718 10 253 113 1844 22 270 0.80 83 92.2 33.5 97.0 18.1 2011 34 287 3 1604 184312 7Th 018 59 24 135 112 54 45 0.21 13 78.8 29.9 354.9 23.3 205 48 61 171 751 1844 531Fr 2209 13 341 88 2351 14 4 1.33 t39 92.8 33.4 16.7 -22.4 2532 10 27 272 2728 18441124Su 2249 58 347 105 2445 54 35 1.44 t47 77.2 29.4 0.6 20.9 2640 41 69 215 3132 1845 521We 1517-36 256 161 1654-22 275 1.10 t23 91.9 33.1 120.6 -19.8 1832 -9 293 288 1937 18451114Fr 010 53 22 37 150 44 54 0.93 96 80.8 30.4 343.8 17.7 329 31 78 251 707 1847 331We 2123 26 322 72 2227 30 339 0.29 21 78.0 29.6 39.1 -4.9 2330 32 357 347 1757 1847 924Fr 1427-26 232 152 1534-17 246 0.42 36 92.8 33.5 139.4 1.1 1640 -7 259 238 1728 1848 319Su 2016 22 302 132 2212 34 332 1.60 t51 78.3 29.6 43.9 0.1 2409 37 7 290 1735 1848 913We 531 -5 88 40 719-20 110 1.70 t50 89.4 32.5 264.1 -3.7 907-33 135 221 501 1849 3 9Fr 025 42 14 135 156 35 41 0.75 77 83.2 31.0 348.9 5.1 326 24 63 218 614 1849 9 2Su 1646-15 266 69 1810 -2 282 0.60 59 83.1 30.8 102.5 -8.4 1934 9 298 329 1825 1851 117Fr 1641 6 246 83 1751 15 258 0.47 42 91.5 33.3 109.8 20.0 1901 26 271 5 1554 1852 1 7We 521 19 101 45 711 4 121 1.67 t49 86.2 31.9 268.9 22.4 900 -8 142 253 746 1852 7 1Th 1437-46 248 120 1626-30 271 1.54 t48 86.9 31.8 129.3 -23.3 1815-15 291 320 2009 18521226Su 1233-14 194 134 1403 -8 213 0.69 69 79.9 30.2 164.5 23.9 1533 1 231 260 1525 1854 512Fr 1553-29 261 211 1646-22 272 0.24 17 90.6 32.8 122.8 -17.3 1739-14 282 269 1923 185411 4Sa 2145 47 324 13 2213 49 334 0.06 2 82.6 30.8 38.1 14.7 2241 51 344 332 1603 1855 5 2We 314 7 54 92 505 -9 75 1.55 t48 84.3 31.2 298.0 -15.1 656-25 96 245 407 18551025Th 644 -5 114 17 830-17 136 1.47 t45 89.1 32.6 243.8 11.8 1015-25 162 245 610 18561013Mo 2221 44 340 102 2354 45 12 1.00 t 4 92.6 33.5 12.7 8.6 2528 39 41 190 3025 1858 227Sa 2211 42 326 193 2314 45 347 0.34 26 85.0 31.5 30.0 8.9 2418 45 9 237 1647 1858 824Tu 1404-41 230 44 1521-31 249 0.47 43 81.5 30.4 145.7 -11.7 1638-20 264 330 1847 1859 217Th 957-22 151 103 1143-27 178 1.70 t49 90.8 33.1 202.8 12.2 1330-24 205 306 647 1859 813Sa 1536-31 255 104 1734-13 278 1.82 t53 78.0 29.4 112.6 -14.7 1933 4 300 279 1905 1860 2 7Tu 202 44 49 50 330 32 71 0.81 85 92.2 33.4 326.0 15.0 457 19 88 289 708 1860 8 1We 1708-19 275 158 1825 -8 289 0.45 40 79.7 29.9 100.0 -17.2 1942 3 304 232 1920 18611217Tu 827 -5 139 131 919 -9 149 0.19 11 78.6 29.8 234.5 24.2 1010-12 160 197 746 1862 612Th 542-21 77 27 721-35 95 1.20 t32 92.9 33.4 264.6 -23.5 900-49 118 253 301 186212 6Sa 645 5 120 66 840 -8 142 1.41 t46 77.2 29.4 242.7 22.7 1035-15 167 248 730 1863 6 1Mo 2246 15 350 120 2426 14 13 1.23 t34 91.7 33.1 7.9 -21.7 2606 8 35 229 2731 18631125We 816 -8 137 29 956-16 159 0.96 98 81.0 30.5 222.8 20.3 1137-18 182 295 705 1865 411Tu 445 0 75 7 538 -8 85 0.20 12 78.0 29.5 290.5 -9.1 631-16 95 311 444 186510 4We 2239 41 346 136 2340 42 6 0.34 27 92.6 33.5 16.9 5.5 2441 40 25 183 3008 1866 331Sa 338 14 63 65 534 -3 86 1.53 t49 78.5 29.7 292.7 -4.2 729-20 109 261 514 1866 924Mo 1320-33 215 101 1507-21 241 1.61 t48 89.0 32.5 146.2 0.6 1655 -6 262 282 1732 1867 320We 816-22 123 111 949-33 145 0.81 84 83.7 31.1 229.9 0.8 1122-38 172 249 540 1867 913Fr 2357 32 8 29 2526 28 33 0.70 71 82.6 30.7 352.6 -4.2 2655 19 54 261 2917 1869 128Th 129 49 40 26 238 41 60 0.46 41 91.4 33.3 338.6 17.4 348 32 76 290 727 ------------------------------------------------------------------------------------------Table 1 - page 19 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1870 117Mo 1357-12 212 110 1546 -1 234 1.66 t49 85.9 31.8 141.0 20.6 1736 13 254 321 1556 1870 712Tu 2145 11 334 99 2334 15 358 1.68 t50 87.3 31.9 22.7 -22.0 2524 12 23 257 1945 1871 1 6Fr 2046 45 295 166 2217 56 323 0.69 70 79.7 30.1 42.4 23.0 2347 60 1 233 1519 1872 522We 2341 17 2 175 2418 17 11 0.12 6 90.3 32.7 9.8 -19.7 2456 15 20 205 2742 18721115Fr 600 7 108 312 620 5 112 0.03 1 82.8 30.9 276.6 17.7 639 2 116 295 656 187311 4Tu 1506 -8 235 84 1651 7 255 1.43 t43 89.3 32.7 118.3 15.3 1836 23 274 300 1602 1874 5 1Fr 1525-32 254 119 1703-17 274 0.83 87 78.8 29.7 118.2 -15.6 1842 -4 293 3 1907 18741025Su 641 -4 114 55 816-15 134 1.06 t17 92.6 33.5 246.7 12.5 951-23 156 203 613 1876 310Fr 621 -2 100 139 722-11 112 0.30 22 85.5 31.6 267.6 4.7 822-19 124 211 607 1876 9 3Su 2115 22 322 30 2223 27 339 0.35 28 81.0 30.3 39.4 -7.9 2330 29 358 298 1820 1877 227Tu 1830 13 273 162 2015 27 296 1.67 t48 91.1 33.1 74.4 8.2 2201 39 323 314 1659 1877 823Th 2214 23 338 73 2412 25 9 1.69 t53 77.9 29.4 12.7 -11.2 2610 19 39 225 2848 1878 217Su 1043-25 163 72 1211-27 186 0.84 88 92.1 33.4 195.5 11.4 1339-24 209 347 1712 1878 812Mo 2342 22 1 108 2508 20 23 0.60 58 79.9 29.9 358.8 -14.2 2634 13 43 178 2829 18791228Su 1637 10 244 201 1727 16 253 0.17 10 78.4 29.8 114.0 24.1 1816 23 261 255 1517 18801216Th 1445 -4 224 134 1639 10 245 1.39 t45 77.2 29.5 124.3 23.6 1834 26 266 303 1517 1881 612Su 611-25 83 64 754-40 103 1.35 t40 91.5 33.0 256.5 -22.9 937-53 129 220 305 188112 5Mo 1628 8 246 98 1809 23 264 0.98 99 81.2 30.5 100.6 22.0 1950 38 284 337 1521 18831016Tu 659 -8 116 98 754-15 127 0.28 20 92.5 33.4 252.6 9.6 850-21 140 172 600 188410 4Sa 2115 35 320 106 2302 42 352 1.53 t47 88.5 32.4 26.6 4.9 2449 39 27 226 1656 1885 330Mo 1559-18 252 175 1734 -5 271 0.88 92 84.1 31.2 112.7 -3.5 1910 9 290 291 1805 1885 924Th 715-17 112 3 848-29 133 0.79 82 82.2 30.6 241.1 0.1 1022-36 158 274 515 1887 2 8Tu 1014-21 156 37 1122-24 173 0.44 38 91.2 33.2 207.9 14.2 1230-24 190 339 654 1887 8 3We 2035 10 316 157 2149 16 332 0.42 37 81.4 30.3 49.1 -16.7 2302 20 349 216 1914 1888 128Sa 2230 52 330 112 2420 55 13 1.65 t49 85.6 31.7 13.3 18.0 2610 46 51 256 3135 1888 723Mo 455-10 69 44 645-26 89 1.82 t51 87.7 32.0 275.3 -20.0 835-42 113 227 336 1889 117Th 459 23 95 92 630 10 111 0.70 71 79.4 30.1 280.2 21.3 801 -2 128 207 744 1889 712Fr 2043 5 320 64 2154 11 335 0.49 44 92.6 33.3 47.9 -22.6 2305 14 351 321 1953 18901126We 1425 -9 222 15 1434 -8 224 0.01 0 83.1 31.0 153.7 20.1 1443 -7 226 7 1538 1891 523Sa 1741-15 285 164 1929 0 305 1.30 t40 83.7 31.0 81.9 -20.4 2117 10 327 290 1932 18911115Su 2335 55 7 50 2519 48 45 1.39 t42 89.5 32.7 351.5 18.4 2703 35 73 227 3118 1892 511We 2210 17 341 95 2353 18 6 0.96 98 78.7 29.6 15.5 -18.6 2537 13 30 300 2747 189211 4Fr 1509 -6 236 123 1645 7 254 1.10 t23 92.5 33.5 119.5 16.1 1821 21 271 262 1556 1894 321We 1426-28 227 206 1521-22 240 0.25 17 85.9 31.7 147.0 0.4 1616-15 252 274 1756 1894 915Sa 435 5 77 323 531 -4 87 0.23 15 80.7 30.2 291.3 -3.8 627-12 98 265 508 1895 311Mo 254 27 57 95 439 12 79 1.63 t48 91.4 33.2 307.8 4.0 625 -4 99 254 603 1895 9 4We 500 -2 79 16 657-19 102 1.56 t50 77.8 29.4 270.6 -7.4 854-34 128 221 447 1896 228Fr 1916 19 284 122 2046 31 304 0.87 91 92.1 33.4 66.5 7.4 2215 40 328 349 1700 1896 823Su 624-17 93 62 757-30 112 0.74 76 80.1 30.0 256.0 -10.8 930-41 136 181 426 1898 1 8Sa 048 58 30 150 135 53 47 0.15 9 78.2 29.7 353.2 23.1 222 48 61 182 759 1898 7 3Su 2046 5 321 74 2217 11 341 0.93 96 93.1 33.4 41.8 -23.4 2349 14 1 289 1959 18981227Tu 2248 60 338 126 2442 58 29 1.38 t45 77.3 29.5 5.0 23.5 2636 45 66 228 3200 1899 623Fr 1333-54 230 127 1518-40 257 1.49 t45 91.2 32.9 146.0 -23.2 1703-25 277 292 2008 18991217Su 045 57 34 44 226 45 65 1.00 100 81.5 30.6 337.5 22.9 407 31 88 259 749 1900 613We 423 -8 62 140 428 -9 63 0.00 0 85.2 31.3 308.0 -22.2 432 -9 64 144 320 19011027Su 1525 -6 240 170 1615 1 249 0.22 15 92.3 33.4 126.9 13.6 1706 8 259 232 1611 1902 422Tu 1800 -6 283 127 1953 9 305 1.34 t43 79.2 29.8 76.4 -12.3 2145 20 331 318 1841 19021017Fr 517 6 95 48 703 -9 116 1.46 t45 88.1 32.3 265.5 9.1 850-21 139 217 601 1903 411Sa 2334 30 0 135 2513 26 27 0.97 99 84.6 31.3 357.2 -7.7 2652 17 50 230 2857 190310 6Tu 1440-21 234 71 1617 -8 254 0.87 91 81.7 30.5 127.9 4.3 1754 7 272 323 1707 1905 219Su 1853 18 277 92 2000 27 290 0.41 35 91.1 33.1 78.3 10.5 2107 36 306 7 1648 1905 815Tu 339 5 58 102 441 -3 70 0.29 22 81.7 30.4 305.7 -13.5 543-12 82 161 422 1906 2 9Fr 657 1 113 60 847-13 135 1.63 t49 85.3 31.6 246.9 14.8 1037-22 160 277 703 1907 129Tu 1306-18 200 149 1438-11 220 0.71 73 79.2 30.0 158.9 18.7 1610 -1 239 276 1615 1907 725Th 403 -4 59 7 522-14 73 0.62 61 92.7 33.3 296.1 -20.6 641-25 88 264 335 1909 6 4Fr 043 13 17 114 229 6 40 1.16 t31 83.4 30.8 337.4 -22.0 414 -6 60 226 324 19091127Sa 811 -8 136 31 955-15 158 1.37 t41 89.8 32.8 223.3 20.8 1138-18 182 271 706 1910 524Tu 446-11 69 46 634-27 89 1.10 t25 78.6 29.6 275.5 -20.9 822-42 111 273 326 19101116We 2344 56 12 85 2521 49 47 1.13 t26 92.4 33.5 350.9 19.1 2658 37 72 189 3123 1912 4 1Mo 2226 31 338 196 2314 33 352 0.19 11 86.4 31.8 27.9 -3.9 2402 33 6 231 1748 1913 915Mo 1153-42 188 54 1348-34 222 1.43 t47 77.7 29.4 166.9 -3.3 1544-20 249 288 1754 1914 312Th 342 20 68 53 513 7 86 0.91 95 92.0 33.3 299.1 3.2 644 -7 103 293 557 1914 9 4Fr 1316-41 215 115 1455-30 241 0.86 90 80.3 30.1 150.9 -6.9 1633-16 261 247 1816 1916 120Th 855 -8 140 150 939-12 150 0.14 7 78.0 29.7 233.1 21.2 1024-15 159 207 741 1916 715Sa 419 -7 61 5 546-19 77 0.80 83 93.2 33.5 290.2 -22.2 712-31 93 249 320 1917 1 8Mo 651 7 118 81 844 -7 139 1.37 t44 77.4 29.5 245.6 22.5 1038-15 164 259 746 1917 7 4We 2052 6 323 111 2239 13 345 1.62 t48 90.9 32.9 36.3 -22.7 2425 14 10 244 1952 19171228Fr 905 -9 146 49 1046-15 168 1.01 t 8 81.8 30.7 213.7 22.9 1228-15 191 313 739 191911 7Fr 2359 53 17 132 2444 50 34 0.18 11 92.1 33.4 359.7 17.1 2529 46 48 165 3108 1920 5 3Mo 101 18 23 68 251 9 48 1.22 t36 79.5 29.9 331.4 -15.8 441 -5 69 265 404 19201027We 1325-20 214 110 1511 -9 236 1.40 t43 87.7 32.2 143.1 13.0 1657 6 257 280 1616 1921 422Fr 703-24 101 92 844-38 124 1.07 t21 85.1 31.4 243.7 -11.6 1026-48 153 243 423 19211016Su 2214 43 337 58 2353 45 11 0.93 97 81.3 30.5 13.2 8.5 2533 39 43 259 3020 ------------------------------------------------------------------------------------------Table 1 - page 20 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1923 3 3Sa 328 25 66 19 432 16 79 0.38 31 91.0 33.1 309.9 6.4 536 6 91 302 618 1924 220We 1518-13 233 127 1708 2 255 1.60 t49 85.0 31.5 121.4 11.1 1858 18 276 331 1655 1924 814Th 1932 4 302 116 2120 16 324 1.66 t49 88.4 32.2 56.0 -14.2 2309 23 351 256 1858 1925 2 8Su 2109 41 304 171 2242 50 333 0.73 75 79.0 29.9 38.2 15.5 2415 52 9 241 1615 192712 8Th 1652 12 250 100 1835 27 269 1.36 t40 90.0 32.9 94.3 22.4 2018 42 290 313 1520 19281127Tu 824 -8 139 71 1001-15 160 1.15 t28 92.3 33.5 221.4 21.5 1139-17 183 233 709 1930 413Su 621-14 94 149 659-19 101 0.11 5 86.9 31.9 271.0 -8.0 736-25 109 191 451 193010 7Tu 1946 24 296 15 2007 27 301 0.03 1 79.9 30.1 70.7 4.6 2027 29 306 351 1704 1931 4 2Th 1923 12 294 164 2107 24 317 1.51 t45 92.0 33.3 59.2 -4.6 2252 31 345 296 1757 1931 926Sa 1854 13 288 81 2048 28 313 1.32 t42 77.6 29.4 61.0 0.9 2242 37 344 266 1726 1932 322Tu 1159-39 187 94 1332-35 214 0.97 99 91.9 33.3 173.5 -1.1 1505-25 237 359 1809 1932 914We 2018 21 308 118 2201 31 333 0.98 99 80.5 30.2 43.5 -2.9 2343 35 3 211 1748 1934 130Tu 1701 7 249 218 1742 12 257 0.12 6 77.9 29.6 113.1 18.5 1823 18 265 262 1608 1935 119Sa 1454 -7 224 149 1647 7 246 1.35 t43 77.5 29.5 126.0 20.7 1841 23 267 314 1553 1935 716Tu 412 -6 60 44 600-20 80 1.76 t50 90.6 32.8 286.5 -21.5 747-36 101 210 325 1936 1 8We 1728 15 254 116 1910 30 273 1.02 t11 82.1 30.8 89.1 21.9 2051 44 295 346 1532 1936 7 4Sa 1726-20 282 178 1825-12 292 0.27 19 84.4 31.1 99.7 -22.1 1924 -4 303 234 1953 19371118Th 838-11 142 125 919-14 151 0.15 8 92.0 33.4 231.4 20.1 1000-16 160 182 700 193811 7Mo 2141 49 324 116 2326 54 3 1.36 t41 87.3 32.1 19.3 16.6 2512 48 41 218 3107 1939 5 3We 1427-40 240 157 1611-25 263 1.18 t32 85.5 31.5 131.5 -15.2 1755-10 283 299 1908 19391028Sa 554 3 105 11 736-10 125 0.99 100 80.9 30.4 257.0 12.4 918-21 147 264 619 1941 9 5Fr 1819 2 283 186 1847 6 288 0.06 2 82.2 30.6 92.7 -5.9 1915 9 294 212 1808 1942 3 2Mo 2331 44 355 101 2521 40 31 1.57 t48 84.8 31.4 357.6 7.0 2712 28 60 263 3026 1942 826We 301 12 52 56 448 -2 74 1.54 t47 88.7 32.3 303.5 -10.5 635-17 94 206 437 1943 220Sa 503 15 89 102 638 2 107 0.76 79 78.9 29.9 279.1 11.7 813-12 125 219 649 1943 815Su 1859 -1 295 79 2028 10 313 0.87 91 92.9 33.4 69.2 -14.7 2158 18 333 306 1903 1945 625Mo 1437-45 248 165 1614-32 268 0.86 90 82.7 30.6 132.2 -22.9 1751-18 286 281 2005 19451219We 137 51 53 34 320 37 78 1.35 t40 90.2 32.9 324.2 23.1 503 22 98 238 754 1946 614Fr 1744-17 287 125 1939 -2 308 1.40 t46 78.4 29.5 80.2 -23.5 2134 9 331 311 1958 194612 8Su 1710 15 253 140 1848 29 271 1.17 t29 92.3 33.5 90.9 23.1 2026 44 291 275 1514 1947 6 3Tu 1957 1 312 52 2015 3 316 0.02 0 79.1 29.7 70.5 -23.2 2034 4 319 30 1951 1949 413We 328 11 60 99 511 -4 80 1.43 t43 92.2 33.3 297.6 -8.7 654-19 99 246 446 194910 7Fr 205 31 50 14 357 17 75 1.23 t37 77.5 29.4 313.0 5.1 548 1 97 223 552 1950 4 2Su 2009 17 305 122 2144 27 327 1.04 t14 91.9 33.3 49.7 -5.4 2319 31 353 329 1758 1950 926Tu 332 17 68 51 517 2 89 1.08 t23 80.8 30.3 293.5 1.3 702-13 110 181 530 1952 211Mo 103 50 28 169 139 47 40 0.09 4 77.8 29.6 354.1 15.2 215 43 51 193 712 1952 8 5Tu 1933 1 303 55 2047 10 318 0.54 51 93.1 33.5 64.9 -17.5 2201 16 334 310 1924 1953 129Th 2254 54 338 140 2447 53 24 1.33 t43 77.7 29.6 6.6 18.0 2640 42 59 243 3129 1954 119Tu 150 49 50 51 332 35 76 1.04 t15 82.4 30.9 324.5 20.1 514 20 96 273 738 1954 716Fr 009 16 8 121 120 13 24 0.41 35 84.0 31.0 356.2 -20.8 231 8 39 179 346 19551129Tu 1722 17 256 195 1800 22 263 0.12 6 91.8 33.3 102.1 22.4 1837 28 269 238 1515 1956 524Th 1449-41 250 106 1631-27 272 0.97 99 80.1 30.0 126.3 -21.3 1814-12 291 341 1946 19561118Su 603 8 111 61 748 -6 131 1.32 t39 86.8 32.0 254.4 19.5 933-15 153 228 702 1957 513Mo 2145 15 334 133 2331 19 0 1.30 t39 86.0 31.6 21.4 -18.2 2517 15 25 245 1905 195711 7Th 1343-16 217 75 1527 -4 238 1.03 t15 80.5 30.3 139.3 15.9 1710 10 257 323 1559 1959 324Tu 2016 20 304 80 2111 26 317 0.27 19 90.7 33.0 58.5 -2.2 2207 31 331 4 1746 1960 313Su 738-16 115 64 928-29 140 1.52 t47 84.5 31.3 235.4 2.7 1118-36 170 292 551 1961 3 2Th 1251-29 198 152 1428-22 223 0.80 84 78.8 29.8 161.2 7.6 1605-11 244 287 1720 1961 826Sa 235 15 46 20 408 4 65 0.99 100 92.9 33.4 313.6 -11.0 542 -9 83 245 437 1963 7 6Sa 2132 10 331 147 2302 14 351 0.71 73 82.3 30.5 30.6 -22.1 2433 14 12 224 1945 19631230Mo 1024-14 164 60 1207-16 187 1.34 t39 90.4 33.0 193.8 22.9 1349-11 209 304 1541 1964 625Th 009 13 8 81 206 7 34 1.56 t51 78.3 29.5 344.0 -23.5 403 -6 57 248 319 19641219Sa 159 49 60 69 337 35 83 1.18 t30 92.2 33.5 319.9 23.8 515 21 101 201 759 1965 614Mo 158 7 33 13 249 2 43 0.18 11 79.3 29.8 332.7 -24.1 339 -4 53 311 310 19671018We 925-25 149 22 1115-29 178 1.15 t30 77.5 29.4 202.7 9.1 1305-25 207 281 551 1968 413Sa 410 4 68 58 547-10 86 1.12 t25 91.8 33.2 288.1 -9.4 725-25 105 284 441 196810 6Su 1055-33 172 78 1242-31 203 1.17 t32 81.0 30.3 181.4 5.5 1429-21 229 248 1700 1970 221Sa 903-18 137 168 930-20 143 0.05 2 77.7 29.6 236.3 11.4 957-23 150 202 647 1970 817Mo 317 7 53 344 423 -1 66 0.41 36 93.1 33.5 310.5 -14.3 530-10 79 258 419 1971 210We 652 2 112 94 844-13 134 1.31 t41 77.9 29.6 247.6 14.8 1037-22 160 266 705 1971 8 6Fr 1855 -3 296 99 2043 10 317 1.73 t50 89.9 32.6 65.7 -16.8 2231 19 341 264 1918 1972 130Su 1012-18 157 71 1153-21 181 1.05 t18 82.8 31.0 199.8 17.5 1335-18 206 333 1632 19731210Mo 210 47 63 124 245 43 72 0.10 5 91.6 33.3 332.0 23.9 319 38 80 159 755 1974 6 4Tu 2139 10 334 75 2316 14 356 0.83 87 80.5 30.1 25.6 -23.0 2453 12 18 292 1944 19741129Fr 1429 -6 223 130 1613 6 243 1.29 t38 86.4 31.9 128.7 21.8 1758 21 262 290 1524 1975 525Su 500-13 72 71 648-28 91 1.43 t44 86.5 31.7 272.2 -20.6 836-44 115 225 325 19751118Tu 2139 51 321 81 2323 56 1 1.07 t21 80.2 30.2 20.5 18.9 2508 51 41 262 3121 1976 513Th 2016 8 313 196 2054 11 322 0.13 6 91.9 33.2 60.7 -17.6 2133 14 330 229 1910 1977 4 4Mo 430 4 73 8 518 -3 82 0.20 12 90.5 32.9 295.9 -6.5 606-10 91 313 459 1978 324Fr 1533-21 245 129 1722 -5 267 1.46 t46 84.2 31.2 115.9 -1.7 1912 11 289 335 1756 1978 916Sa 1820 5 282 126 2004 20 303 1.33 t40 89.2 32.5 72.6 -2.3 2148 31 328 254 1744 1979 313Tu 2029 26 303 170 2208 36 329 0.86 89 78.6 29.8 45.5 3.4 2347 40 359 256 1720 ------------------------------------------------------------------------------------------Table 1 - page 21 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 1981 717Fr 425 -6 63 94 547-18 78 0.55 53 81.9 30.5 289.7 -20.6 709-30 93 180 336 1982 1 9Sa 1914 31 275 117 2056 45 297 1.34 t39 90.6 33.1 62.8 21.8 2238 56 330 309 1530 19821230Th 1051-15 170 102 1229-14 192 1.19 t30 92.1 33.5 188.4 23.6 1407 -9 213 268 1535 1985 5 4Sa 1917 2 300 166 2056 13 321 1.24 t34 92.6 33.4 60.2 -15.8 2236 19 344 282 1857 19851028Mo 1655 6 258 78 1842 22 278 1.08 t23 77.4 29.4 90.5 12.9 2030 37 302 301 1614 19861017Fr 1829 17 279 119 2018 33 302 1.25 t37 81.2 30.4 66.7 9.6 2207 44 333 241 1633 1988 3 3Th 1707 -1 257 243 1713 0 258 0.00 0 77.7 29.5 120.2 7.3 1718 1 259 248 1715 1989 220Mo 1443-17 225 160 1635 -3 249 1.28 t40 78.1 29.7 129.7 11.0 1827 13 270 318 1657 1989 817Th 221 14 41 32 408 2 64 1.60 t48 89.5 32.5 314.1 -13.6 556-13 84 214 424 1990 2 9Fr 1829 17 269 129 2011 32 290 1.08 t22 83.2 31.1 75.6 14.2 2154 44 317 344 1626 1990 8 6Mo 1344-47 227 135 1512-36 249 0.68 69 83.2 30.8 148.2 -16.1 1640-23 267 248 1916 19911221Sa 1100-14 172 162 1133-14 180 0.09 4 91.4 33.3 201.3 24.4 1206-14 187 208 743 1992 615Mo 427-10 62 12 557-23 79 0.69 70 80.8 30.2 285.9 -23.9 727-36 96 263 305 199212 9We 2259 60 348 116 2444 57 34 1.27 t37 86.0 31.8 2.2 23.2 2629 45 66 215 3154 19931129Mo 540 13 107 23 726 -1 126 1.09 t24 79.8 30.1 260.6 21.1 912-12 148 270 719 1994 525We 337 0 56 123 430 -8 66 0.25 17 92.1 33.2 306.7 -20.0 523-15 75 176 333 1996 4 3We 2321 31 356 95 2510 28 26 1.38 t43 84.0 31.1 358.3 -6.0 2658 17 52 272 2908 1996 927Fr 212 28 50 64 354 15 73 1.25 t35 89.5 32.6 314.0 2.0 536 0 93 195 538 1997 324Mo 358 14 69 102 539 -1 89 0.92 96 78.6 29.7 291.9 -1.0 721-16 109 223 534 1997 916Tu 1808 3 280 88 1947 17 300 1.20 t31 92.9 33.5 77.1 -2.8 2125 28 322 296 1748 2000 121Fr 401 30 83 39 543 15 102 1.33 t39 90.9 33.1 291.9 19.8 725 1 120 260 735 2000 716Su 1257-56 214 109 1455-42 249 1.77 t53 78.2 29.4 152.7 -21.2 1654-25 273 305 1955 2001 1 9Tu 1942 35 280 154 2120 49 304 1.19 t31 92.0 33.4 56.7 22.4 2259 58 338 266 1525 2001 7 5Th 1435-46 247 81 1555-35 265 0.50 46 79.8 29.9 137.4 -23.4 1715-23 280 357 2010 2003 516Fr 303 5 50 104 440 -8 68 1.13 t26 92.8 33.4 304.2 -18.6 617-22 86 225 343 200311 9Su 032 50 29 23 218 39 61 1.02 t12 77.4 29.5 336.5 16.3 404 24 85 234 658 2004 5 4Tu 1948 6 308 126 2130 15 330 1.31 t38 91.5 33.1 51.5 -16.5 2312 20 354 314 1858 20041028Th 214 36 59 48 404 21 83 1.31 t40 81.4 30.5 309.8 13.4 554 5 105 191 634 20051017Mo 1235-26 201 150 1303-25 208 0.07 2 87.9 32.2 175.1 10.3 1332-22 215 189 1632 2006 9 7Th 1905 7 292 32 1951 13 302 0.19 12 92.8 33.4 77.2 -6.7 2037 19 312 333 1815 2007 3 3Sa 2230 42 334 152 2421 44 11 1.24 t37 78.4 29.7 12.9 6.9 2612 35 45 254 3023 2008 221Th 243 35 57 61 426 20 80 1.11 t25 83.6 31.1 311.8 10.5 609 5 99 282 641 2008 816Sa 2035 13 315 126 2210 21 336 0.81 85 82.8 30.7 43.3 -12.9 2344 24 1 210 1851 20091231Th 1952 38 281 214 2023 43 288 0.08 3 91.2 33.2 70.4 24.0 2053 47 295 244 1509 20101221Tu 732 1 128 82 917 -9 149 1.26 t37 85.7 31.7 235.4 23.7 1101-15 171 251 743 2011 615We 1922 -4 305 125 2112 7 327 1.70 t50 87.4 31.9 57.0 -23.2 2302 13 351 267 1954 20111210Sa 1345-10 213 88 1532 1 234 1.11 t26 79.5 30.1 140.3 22.6 1718 15 253 333 1524 2013 425Th 2052 14 320 46 2107 15 323 0.02 0 90.1 32.7 57.4 -14.4 2123 17 327 26 1848 2014 415Tu 658-22 101 51 845-36 125 1.29 t39 83.7 31.0 243.6 -10.0 1033-47 156 288 434 2015 928Mo 207 28 48 26 347 15 71 1.28 t36 92.8 33.5 316.1 1.5 527 1 90 233 536 2017 8 7Mo 1822 -7 288 176 1920 2 299 0.25 17 81.2 30.3 86.2 -15.4 2018 9 310 228 1908 2018 131We 1248-20 196 93 1429-14 219 1.32 t38 91.1 33.2 160.9 17.0 1611 -2 240 331 1628 2018 727Fr 1924 -1 302 122 2121 12 326 1.61 t52 78.1 29.4 56.2 -19.0 2319 18 353 259 1929 2019 121Mo 433 26 89 77 612 11 107 1.20 t31 91.9 33.4 284.9 20.3 750 -2 125 224 739 2019 716Tu 2101 7 323 69 2230 13 343 0.66 66 80.1 30.0 39.0 -21.9 2400 15 4 303 1947 20211119Fr 818-10 137 17 1003-17 160 0.98 99 77.4 29.5 220.8 19.2 1147-19 185 282 655 2022 516Mo 327 1 55 64 511-13 74 1.42 t43 91.3 33.0 296.3 -19.3 655-28 93 263 337 202211 8Tu 1009-21 163 71 1159-21 190 1.36 t43 81.6 30.6 191.1 16.9 1349-15 216 255 1555 20231028Sa 2034 39 305 165 2114 44 315 0.13 6 88.2 32.3 52.1 14.1 2153 48 328 196 1604 2024 918We 312 17 60 317 344 13 67 0.09 4 92.7 33.4 318.1 -2.6 416 9 73 277 520 2025 314Fr 609 -2 97 102 758-18 119 1.18 t33 78.6 29.8 257.9 2.7 948-31 145 258 555 2025 9 7Su 1726 -7 273 84 1911 9 293 1.37 t41 88.7 32.3 86.8 -6.0 2056 22 316 283 1810 2026 3 3Tu 1050-31 164 87 1233-31 193 1.15 t30 84.0 31.2 189.4 6.4 1417-25 221 344 1734 2026 828Fr 333 9 60 60 512 -5 80 0.93 96 82.3 30.6 297.0 -9.3 652-19 99 175 442 2028 112We 444 26 93 137 513 22 98 0.07 3 91.0 33.2 299.1 22.7 542 17 103 170 753 2028 7 6Th 1808-15 290 65 1919 -5 303 0.39 33 81.5 30.3 86.6 -23.3 2030 3 316 337 2003 20281231Su 1607 5 239 153 1751 19 257 1.25 t36 85.3 31.6 108.0 23.3 1936 34 277 303 1523 2029 626Tu 232 4 40 58 422 -8 61 1.85 t51 87.8 32.0 310.3 -23.3 612-23 81 220 314 20291220Th 2155 55 319 99 2341 60 4 1.12 t27 79.2 30.0 19.1 23.1 2528 53 47 269 3156 2030 615Sa 1820-12 293 172 1933 -3 306 0.51 47 92.6 33.3 81.9 -22.6 2045 5 320 244 1953 2032 425Su 1427-38 239 116 1613-24 263 1.20 t33 83.4 30.9 131.1 -13.8 1759 -9 283 342 1900 20321018Mo 1824 17 277 136 2002 31 298 1.11 t24 89.9 32.8 70.6 10.4 2140 43 324 252 1626 2033 414Th 1824 0 286 166 2012 14 308 1.10 t25 78.4 29.6 72.1 -9.4 2200 24 333 279 1825 2034 928Th 331 17 67 316 346 15 70 0.02 0 89.8 32.7 316.6 1.0 401 13 73 298 534 2035 819Su 131 20 30 128 210 17 39 0.11 5 80.8 30.2 343.1 -12.0 250 13 48 158 437 2036 211Mo 2130 42 312 113 2311 50 345 1.31 t38 91.3 33.2 30.6 13.6 2453 49 22 287 1620 2036 8 7Th 155 15 34 70 351 2 58 1.46 t48 78.0 29.4 318.7 -16.1 547-14 80 208 411 2037 131Sa 1321-18 204 136 1500-10 225 1.21 t32 91.8 33.4 153.5 17.5 1639 2 245 296 1623 2037 727Mo 332 2 53 17 508-11 71 0.81 85 80.3 30.0 299.7 -19.6 645-25 89 255 345 2039 6 6Mo 1823-11 293 171 1953 1 310 0.89 93 93.1 33.4 76.6 -22.1 2123 9 328 270 1948 20391130We 1611 6 243 82 1755 20 262 0.95 97 77.4 29.5 103.6 21.3 1938 36 282 324 1526 20401118Su 1812 23 268 125 2003 39 291 1.40 t44 81.9 30.7 70.5 19.7 2153 53 322 261 1532 ------------------------------------------------------------------------------------------Table 1 - page 22 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 2041 516Th 111 14 24 20 141 12 31 0.07 3 85.0 31.3 348.5 -20.0 211 9 38 340 335 204111 8Fr 447 17 95 93 533 11 104 0.17 10 88.4 32.4 287.3 17.5 619 4 112 146 654 2043 325We 1342-34 217 164 1530-22 244 1.12 t27 78.9 29.8 144.1 -1.6 1718 -7 266 314 1802 2043 919Sa 107 31 30 24 250 21 55 1.26 t36 88.2 32.2 331.2 -1.9 433 7 77 223 525 2044 313Su 1852 12 283 135 2037 26 305 1.21 t34 84.5 31.3 68.0 2.1 2221 36 333 336 1728 2046 122Mo 1334-15 206 201 1401-13 211 0.06 2 90.8 33.1 168.1 20.5 1427-11 217 236 1607 2046 718We 106 13 20 1 204 9 33 0.25 17 81.8 30.4 345.8 -21.8 302 4 45 286 339 2047 112Sa 039 57 26 107 224 46 61 1.24 t35 85.0 31.6 341.1 22.0 409 31 85 225 751 2048 1 1We 604 13 110 39 752 -1 129 1.13 t28 79.0 30.0 257.8 22.7 939-11 151 284 744 2048 626Fr 140 9 29 105 300 2 45 0.64 64 92.8 33.3 330.5 -22.6 420 -7 61 185 323 2050 5 6Fr 2147 16 334 93 2330 20 359 1.08 t22 83.1 30.8 21.6 -17.2 2513 16 24 290 1859 20501030Su 243 33 67 67 420 19 87 1.06 t18 90.1 32.8 305.9 14.2 556 6 105 193 638 2051 426We 124 20 29 106 314 9 54 1.20 t35 78.3 29.6 326.0 -13.2 505 -7 75 226 421 20511019Th 1827 17 278 98 2010 32 300 1.42 t42 92.6 33.5 68.9 9.9 2152 43 327 289 1629 2054 222Su 608 4 101 49 749-11 120 1.28 t37 91.6 33.3 261.0 9.8 930-22 142 282 634 2055 211Th 2204 46 322 146 2344 51 357 1.23 t33 91.7 33.3 22.6 14.1 2523 47 33 243 1616 2057 617Su 159 8 34 113 324 0 50 0.76 79 93.1 33.5 324.3 -22.8 449-11 66 203 320 20571211Tu 009 59 20 37 151 49 56 0.92 96 77.5 29.5 345.5 22.6 334 35 81 248 749 2058 6 6Th 1826-11 295 132 2013 2 315 1.67 t49 90.8 32.8 71.3 -22.8 2200 11 337 303 1951 20581130Sa 223 43 67 50 414 27 90 1.43 t45 82.1 30.8 308.6 21.9 605 11 111 205 734 20591119We 1309-15 207 150 1359-11 218 0.21 14 88.7 32.5 161.2 20.4 1449 -5 228 218 1533 2061 4 4Mo 2107 23 318 168 2252 30 346 1.04 t16 79.3 29.9 32.9 -5.8 2437 30 16 263 1759 2062 325Sa 246 22 53 72 432 8 75 1.27 t38 84.9 31.4 308.4 -2.2 618 -8 95 280 526 2062 918Mo 1745 1 275 120 1932 16 296 1.15 t30 81.5 30.4 80.4 -1.2 2118 29 320 242 1739 2063 314We 1642 -9 257 77 1703 -6 261 0.04 1 90.8 33.0 120.9 1.5 1725 -3 265 55 1743 2064 2 2Sa 2224 51 326 211 2247 53 334 0.04 1 90.7 33.1 37.2 17.6 2309 54 342 226 1555 2065 122Th 912-11 144 106 1056-18 167 1.23 t35 84.7 31.5 213.9 19.8 1241-18 192 278 730 2065 717Fr 1658-24 276 107 1846 -8 295 1.62 t49 88.5 32.2 95.1 -21.1 2035 5 316 288 1949 2066 111Mo 1415-10 216 105 1602 2 237 1.14 t29 78.8 29.9 136.3 21.4 1750 16 257 347 1546 2068 517Th 500-12 72 31 640-27 90 0.96 98 82.8 30.7 274.1 -20.0 820-41 111 269 330 206811 9Fr 1109-21 178 105 1245-19 201 1.02 t10 90.3 32.9 179.7 17.6 1420-11 222 258 1553 20691030We 249 32 68 28 433 17 89 1.47 t44 92.5 33.5 302.8 13.7 616 3 109 233 635 20701019Su 1907 23 286 44 1949 29 295 0.14 8 89.0 32.5 74.3 9.4 2030 34 305 353 1633 2072 3 4Fr 1440-22 228 115 1621 -9 249 1.25 t35 91.8 33.3 132.6 5.6 1801 5 269 345 1726 2072 828Su 1513-29 246 130 1703-13 269 1.17 t32 77.9 29.4 119.4 -8.9 1853 3 290 269 1829 2073 222We 642 -1 108 88 822-14 127 1.25 t35 91.6 33.3 252.9 10.3 1002-24 150 248 636 2073 817Th 1654-18 270 92 1840 -3 290 1.11 t26 80.8 30.2 96.1 -13.4 2026 11 311 308 1856 20751222Su 812 -4 135 26 953-12 156 0.91 94 77.6 29.6 226.3 23.0 1135-16 179 294 737 2076 617We 149 8 31 75 337 -3 53 1.80 t50 90.6 32.8 321.0 -23.4 525-17 72 240 314 20761210Th 1042-15 170 85 1232-14 195 1.45 t46 82.4 30.8 185.2 23.2 1423 -7 219 273 1524 2077 6 6Su 1454-43 253 85 1557-34 266 0.32 24 84.3 31.1 135.3 -23.5 1700-25 278 19 2009 20771129Mo 2140 54 317 162 2233 58 337 0.24 16 88.9 32.6 33.6 22.5 2326 60 0 195 1511 2079 416Su 426 2 71 110 608-13 90 0.95 98 79.6 29.9 283.2 -9.8 750-29 111 232 440 20791010Tu 1648 -1 260 74 1828 14 279 1.08 t22 87.3 32.0 95.0 6.5 2007 28 300 299 1653 2080 929Su 101 36 31 61 250 24 59 1.25 t37 81.0 30.3 329.9 3.0 439 9 82 185 546 2081 325Tu 045 33 20 36 119 30 29 0.10 4 91.1 33.1 356.2 -2.9 153 27 38 348 522 2082 213Fr 712 -2 114 162 727 -4 117 0.02 0 90.5 33.0 267.3 14.1 741 -6 120 180 702 2083 2 2Tu 1739 12 258 171 1924 27 278 1.21 t34 84.4 31.4 87.6 16.9 2109 41 302 305 1612 2083 729Th 016 17 9 52 203 12 34 1.48 t46 88.9 32.3 346.1 -18.9 349 1 56 229 359 2084 122Sa 2222 53 326 108 2410 56 10 1.16 t31 78.6 29.8 15.2 19.2 2559 48 49 281 3135 2084 717Mo 1625-28 269 146 1756-15 286 0.92 95 93.0 33.4 107.5 -20.4 1927 -2 302 256 1944 20861120We 1942 37 287 150 2117 49 311 0.99 100 90.5 33.0 52.2 20.4 2251 57 345 245 1521 2087 517Sa 1457-39 251 147 1652-22 274 1.46 t48 78.2 29.5 121.1 -19.3 1848 -6 296 301 1931 20871110Mo 1119-22 181 68 1303-18 206 1.51 t45 92.4 33.5 175.4 17.1 1446 -9 228 300 1557 2088 5 5We 1635-22 269 211 1714-16 276 0.11 5 78.9 29.7 115.9 -15.8 1753-11 283 249 1908 20881030Sa 313 29 72 336 400 22 82 0.19 11 88.6 32.4 311.0 13.2 448 15 92 282 634 2090 315We 2306 38 349 93 2446 37 20 1.21 t32 92.0 33.3 5.6 1.3 2625 28 46 282 2952 2090 9 8Fr 2203 29 335 114 2349 32 5 1.04 t17 77.8 29.4 16.9 -4.8 2536 27 34 207 2918 2091 3 5Mo 1514-17 235 156 1655 -4 256 1.29 t37 91.5 33.2 124.1 6.1 1836 10 275 307 1722 2091 828Tu 2346 27 3 53 2535 22 32 1.24 t37 81.1 30.3 351.5 -9.6 2724 11 57 242 2851 2093 7 8We 1710-22 278 177 1821-12 291 0.49 45 93.2 33.5 101.0 -21.5 1933 -3 304 253 1953 2094 1 1Fr 1616 5 241 94 1757 19 259 0.89 93 77.7 29.6 106.7 22.4 1938 34 278 341 1531 20941221Tu 1903 32 273 138 2054 48 298 1.47 t46 82.7 30.9 61.2 23.6 2244 59 335 270 1512 2095 617Fr 2143 9 334 65 2257 12 351 0.45 40 84.0 31.0 31.0 -24.1 2411 12 7 321 1955 20951211Su 617 10 114 101 712 4 124 0.26 18 89.2 32.7 265.1 23.9 807 -3 135 172 743 20971021Mo 050 43 32 17 228 33 59 1.01 t 9 86.9 32.0 334.5 10.5 405 20 81 233 625 2098 415Tu 1814 -3 284 141 2002 12 306 1.44 t45 85.9 31.6 74.4 -10.4 2150 22 331 327 1829 20981010Fr 826-21 133 51 1017-30 161 1.33 t42 80.6 30.3 217.4 7.1 1207-30 192 233 542 2101 214Mo 202 42 48 108 347 29 73 1.19 t32 84.1 31.3 322.0 13.4 531 13 94 236 659 2102 2 3Fr 626 6 108 54 815 -8 129 1.17 t32 78.4 29.8 254.5 16.3 1004-19 153 296 713 2102 729Sa 2351 18 3 95 2526 15 26 1.05 t17 93.0 33.4 355.1 -18.2 2701 7 46 195 2806 ------------------------------------------------------------------------------------------Table 1 - page 23 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 2104 6 8Su 1906 -6 302 85 2035 4 319 0.68 69 82.2 30.5 66.0 -23.5 2204 11 338 323 1956 210412 2Tu 421 26 93 74 555 12 110 0.97 99 90.6 33.0 283.5 22.4 728 1 127 207 732 2105 528Th 2133 11 332 119 2331 16 359 1.60 t51 78.2 29.5 21.7 -21.4 2528 12 26 249 1931 21051121Sa 1955 38 290 110 2139 51 318 1.54 t46 92.2 33.5 46.8 19.8 2323 57 358 275 1525 2106 517Mo 2305 18 354 162 2403 18 8 0.24 16 79.2 29.8 13.4 -18.6 2501 16 21 203 2751 21061111Th 1127-22 182 19 1219-21 195 0.22 15 88.2 32.4 186.5 16.5 1310-18 207 338 1602 2108 327Tu 725-19 110 50 903-32 132 1.15 t28 92.2 33.4 240.4 -3.1 1041-40 159 298 515 2108 920Th 501 3 84 64 644-13 105 0.92 96 77.8 29.4 272.3 -0.6 826-26 127 193 518 2109 316Sa 2337 39 359 125 2519 35 30 1.33 t39 91.4 33.2 357.5 1.8 2701 24 55 241 2955 2109 9 9Mo 649-17 102 21 840-32 127 1.36 t43 81.3 30.4 244.6 -5.5 1031-42 158 254 451 2110 829Fr 1709-13 271 36 1735 -9 276 0.05 2 87.7 32.1 111.7 -10.2 1801 -6 281 8 1838 2111 721Tu 048 16 17 128 150 12 31 0.36 29 93.2 33.5 349.1 -19.7 252 7 44 183 352 2112 114Th 023 57 19 50 203 48 54 0.88 92 77.9 29.7 346.3 21.0 343 35 79 265 748 2112 7 9Sa 1628-29 271 136 1816-13 290 1.69 t50 89.9 32.6 102.3 -22.1 2004 1 310 292 1958 2113 1 2Mo 329 36 80 59 519 20 101 1.48 t46 83.0 31.0 296.0 23.1 710 5 121 223 753 2113 629Th 429-10 62 13 552-21 77 0.59 57 83.6 30.9 288.0 -23.9 715-33 92 273 309 21131222Fr 1459 -2 226 172 1555 4 236 0.27 20 89.4 32.7 135.7 24.3 1651 12 246 244 1516 2115 5 8We 1845 -3 294 184 2018 8 313 0.73 76 80.3 30.1 69.9 -16.6 2151 16 334 271 1905 211511 2Sa 857-18 144 15 1033-24 168 0.95 98 86.4 31.9 212.9 14.2 1209-23 192 283 617 2116 427Mo 149 17 35 84 338 5 59 1.54 t48 86.4 31.7 320.0 -14.0 527-11 79 266 414 21161021We 1558 -4 248 112 1750 12 269 1.40 t45 80.3 30.2 103.6 11.1 1942 29 292 265 1625 2117 416Fr 1635-18 265 96 1728-11 276 0.26 18 91.7 33.2 112.5 -11.1 1822 -3 286 33 1842 21171010Su 1818 14 277 177 1843 18 282 0.04 1 77.5 29.4 90.5 7.6 1909 21 287 200 1645 2119 225Sa 1017-26 156 124 1201-29 183 1.15 t29 83.8 31.2 198.1 9.5 1345-25 211 294 1721 2119 820Su 1506-34 247 80 1648-19 268 1.23 t34 89.5 32.5 124.0 -12.8 1830 -4 287 301 1854 2120 214We 1424-17 220 119 1614 -5 243 1.20 t34 78.3 29.7 135.0 12.9 1803 11 264 354 1647 2122 620Sa 203 6 34 18 324 -2 50 0.53 50 81.9 30.4 324.5 -24.1 444-12 64 273 311 21221213Su 1306-12 203 136 1439 -5 222 0.96 98 90.8 33.1 153.8 23.6 1612 6 240 278 1520 2123 6 9We 405 -7 59 57 603-23 81 1.75 t53 78.2 29.5 284.2 -22.8 801-40 104 226 313 212312 3Fr 436 23 95 36 620 8 114 1.56 t46 92.1 33.4 277.3 21.8 804 -5 133 249 727 2124 528Su 536-18 78 107 647-28 91 0.38 32 79.5 29.8 272.6 -20.8 758-39 106 182 326 21241121Tu 1949 37 288 61 2043 44 302 0.25 17 87.8 32.3 60.8 19.2 2137 50 318 350 1531 2126 4 7Su 1538-24 251 118 1714-10 270 1.09 t22 92.4 33.4 116.9 -7.3 1850 3 288 348 1825 212610 1Tu 1207-34 193 114 1346-27 220 0.82 85 77.7 29.5 165.8 3.7 1524-16 242 252 1713 2127 328Fr 753-23 117 90 936-35 141 1.39 t41 91.3 33.1 232.3 -2.6 1119-41 171 267 518 2127 920Sa 1400-31 226 87 1552-17 251 1.47 t47 81.6 30.5 135.4 -1.3 1745 1 273 302 1742 2128 9 9Th 021 30 14 359 107 28 26 0.17 10 88.0 32.2 358.0 -6.1 152 24 38 296 510 2130 124Tu 827 -8 134 38 1006-17 155 0.87 90 78.1 29.7 226.3 18.7 1146-20 179 309 723 2130 720Th 2348 16 2 93 2535 13 27 1.55 t47 89.6 32.5 353.0 -20.3 2722 3 49 224 2749 2131 113Sa 1156-17 184 107 1346-12 209 1.49 t46 83.3 31.1 170.6 21.7 1536 -2 231 294 1551 2132 1 2We 2343 61 3 145 2440 59 28 0.29 21 89.7 32.8 5.9 23.8 2537 53 49 182 3210 2133 519Tu 146 12 33 130 312 4 51 0.61 60 80.7 30.2 326.3 -19.2 438 -8 67 210 342 21331112Th 1711 12 258 77 1846 26 276 0.91 94 86.0 31.8 89.7 17.4 2021 40 296 315 1548 213411 1Mo 2337 51 8 72 2530 44 47 1.45 t47 79.9 30.1 348.3 14.8 2723 29 75 196 3050 2135 428Th 020 22 13 52 122 18 28 0.35 28 92.0 33.2 353.5 -14.7 224 12 42 324 409 21351022Sa 120 42 42 107 202 37 54 0.12 6 77.4 29.4 340.3 11.6 244 32 65 140 629 2137 3 7Th 1826 10 275 180 2009 25 296 1.11 t25 83.5 31.1 75.5 5.3 2153 36 322 297 1715 2137 830Fr 2241 26 345 48 2420 27 12 1.11 t25 89.8 32.6 10.4 -9.0 2559 22 37 244 2902 2138 224Mo 2215 43 329 117 2406 46 6 1.23 t37 78.2 29.7 16.7 9.0 2556 39 42 292 3034 2138 820We 1454-35 244 117 1634-20 265 1.30 t38 93.1 33.5 127.1 -12.0 1815 -5 283 263 1849 21401223Fr 2153 56 317 153 2325 61 355 0.95 98 91.0 33.2 23.5 23.9 2458 57 35 225 1457 21411213We 1322-12 207 100 1506 -2 228 1.57 t46 92.0 33.4 147.0 23.0 1650 11 247 320 1524 214212 3Mo 416 26 90 347 512 18 101 0.26 19 87.4 32.2 294.4 21.2 608 10 111 289 726 2144 417Fr 2342 26 3 76 2516 22 27 1.01 t 7 92.6 33.4 355.7 -11.4 2650 13 48 285 2834 21441011Su 1923 24 291 145 2058 36 313 0.73 75 77.7 29.5 57.0 7.9 2232 44 342 228 1640 2145 4 7We 1559-21 255 156 1744 -6 275 1.46 t44 91.2 33.1 109.7 -6.9 1928 9 296 307 1821 2145 930Th 2122 34 323 86 2315 40 357 1.57 t49 81.8 30.5 23.7 3.0 2508 36 32 242 1708 2146 328Mo 614 -8 95 147 640-11 100 0.05 2 85.2 31.5 276.6 -2.1 705-15 105 175 526 2146 920Tu 750-23 118 341 847-30 131 0.27 19 88.3 32.3 241.9 -1.9 943-35 146 291 505 2147 811Fr 1619-24 263 188 1653-19 269 0.10 4 93.0 33.4 123.0 -14.2 1726-14 276 225 1905 2148 2 4Su 1630 1 245 104 1809 15 264 0.85 89 78.3 29.7 106.0 15.8 1948 29 284 352 1624 2149 123Th 2023 39 291 146 2213 52 322 1.50 t47 83.7 31.2 44.8 19.4 2403 56 5 264 1547 2149 720Su 1757-15 287 92 1934 -2 304 0.87 91 82.8 30.7 83.3 -21.0 2110 9 323 319 1947 2150 113Tu 829 -5 136 124 927-11 148 0.30 22 89.9 32.9 235.4 22.3 1025-14 161 204 743 21511124We 130 48 50 10 303 36 74 0.87 91 85.6 31.7 325.9 19.9 437 22 93 244 723 2152 518Th 1640-23 273 146 1831 -8 293 1.77 t51 87.3 31.9 96.5 -19.8 2021 5 315 319 1932 21521112Su 723 -5 126 47 917-16 150 1.50 t48 79.5 30.0 231.7 18.0 1111-20 177 237 647 215311 1Th 838-15 140 106 929-19 152 0.18 11 77.3 29.4 228.2 15.3 1021-22 165 172 628 2155 319We 226 28 49 117 408 15 71 1.06 t18 83.3 31.0 315.2 1.0 550 0 91 236 546 2155 911Th 623-13 97 356 758-26 117 1.01 t 6 90.0 32.7 254.9 -5.0 934-37 141 246 452 2156 3 7Su 557 1 96 64 749-15 118 1.28 t40 78.1 29.6 260.2 4.8 941-28 144 294 607 2156 830Mo 2233 27 343 87 2416 28 11 1.42 t42 93.0 33.5 11.1 -8.3 2558 22 38 206 2905 ------------------------------------------------------------------------------------------Table 1 - page 24 ------------------------------------------------------------------------------------------ Date Beginning Time of maximum phase End R/S Year M Day CET H Az V CET H Az f F/t Du Dm Long Lat CET H Az V CET ------------------------------------------------------------------------------------------ 2157 224Th 704 -6 111 356 712 -7 112 0.00 0 77.7 29.6 269.9 8.6 720 -8 114 349 628 2157 820Sa 1618-22 261 180 1642-18 266 0.05 1 90.3 32.7 125.0 -11.3 1705-15 270 206 1843 2158 711Tu 1557-35 264 56 1651-26 275 0.22 14 81.2 30.3 124.0 -22.8 1745-19 285 358 2003 2159 1 4Th 642 8 117 94 814 -3 134 0.94 97 91.2 33.2 252.6 23.2 947-11 153 234 748 2159 630Sa 1658-25 278 115 1855 -8 299 1.58 t51 78.1 29.4 92.2 -23.2 2053 5 321 292 2001 21591224Mo 2211 57 324 110 2355 60 9 1.58 t46 91.8 33.4 16.0 23.2 2540 52 50 256 3159 2160 618We 1835-10 296 161 2005 1 313 0.68 69 80.1 30.0 74.1 -22.8 2136 9 331 245 1954 21601213Sa 1248-14 199 46 1345-11 212 0.27 19 87.0 32.1 167.2 22.3 1442 -6 223 358 1532 21621023Sa 248 31 66 80 419 18 85 0.65 66 77.7 29.5 306.2 11.9 549 5 103 178 624 2163 418Mo 2359 26 8 111 2544 20 34 1.54 t46 91.0 33.0 348.8 -10.9 2730 9 57 243 2837 21631012We 454 9 89 29 647 -8 111 1.65 t51 82.0 30.6 269.9 7.2 840-21 135 234 554 2164 930Su 1531-16 246 53 1635 -7 258 0.36 29 88.6 32.4 123.8 2.4 1740 3 271 344 1720 2166 215Sa 029 49 16 61 206 41 47 0.83 86 78.5 29.8 346.7 12.2 344 28 71 281 655 2166 811Mo 1428-40 239 129 1612-26 261 1.27 t37 88.8 32.3 133.3 -14.8 1755-11 281 277 1910 2167 2 4We 447 21 89 72 636 5 109 1.52 t47 84.1 31.3 279.3 16.4 826 -9 130 242 715 2167 8 1Sa 042 17 15 44 224 10 39 1.01 t10 82.4 30.6 340.8 -18.5 406 -1 59 253 400 2168 124Su 1713 10 251 193 1812 18 262 0.31 24 90.2 32.9 105.0 20.0 1911 27 273 262 1555 2169 6 9Fr 1545-35 263 196 1652-25 276 0.35 28 81.5 30.3 122.1 -22.2 1759-15 288 265 1957 216912 4Mo 954-15 159 30 1127-17 180 0.84 88 85.2 31.6 201.0 21.8 1300-14 201 304 1534 2170 530We 000 15 7 101 150 9 32 1.84 t51 87.7 32.0 346.9 -21.7 340 -2 54 251 326 21701123Fr 1516 -2 234 113 1711 14 255 1.54 t49 79.2 30.0 113.8 20.6 1906 31 276 285 1529 2171 519Su 1535-34 260 105 1652-23 275 0.57 55 92.5 33.3 121.0 -20.5 1808-12 289 10 1944 21711112Tu 1607 3 245 165 1705 12 256 0.24 16 77.2 29.4 114.5 18.5 1803 20 266 229 1540 2173 921Tu 1413-29 229 57 1545-17 249 0.91 95 90.3 32.8 137.3 -0.8 1717 -4 267 310 1740 2174 318Fr 1332-33 213 124 1525-21 241 1.34 t43 78.1 29.6 145.5 0.5 1719 -5 264 352 1751 2174 911Su 619-12 97 35 803-26 119 1.52 t45 92.9 33.5 253.5 -4.3 947-37 145 210 454 2175 3 7Tu 1426-25 225 68 1454-22 232 0.05 2 77.9 29.6 153.7 4.4 1523-18 238 46 1734 2175 831Th 2331 29 359 130 2414 29 11 0.15 9 89.9 32.7 11.3 -7.5 2457 27 23 162 2908 2176 721Su 2302 15 350 3 2331 16 357 0.06 2 80.9 30.2 24.2 -21.0 2401 16 4 325 1944 2177 114Tu 1532 -2 231 167 1704 10 249 0.94 97 91.4 33.3 121.5 21.6 1836 23 265 297 1543 2177 710Th 2324 14 357 66 2520 12 23 1.42 t47 78.1 29.4 356.6 -22.2 2715 2 47 239 2736 2178 1 4Su 700 5 120 57 845 -7 140 1.59 t47 91.7 33.3 244.9 22.5 1029-15 162 279 742 2178 630Tu 105 12 21 100 243 4 42 0.84 88 80.4 30.0 335.2 -22.6 421 -7 60 192 326 21781224Th 2123 51 308 70 2221 57 327 0.27 20 86.7 32.0 39.6 22.5 2318 60 351 341 1511 2180 5 9Tu 1533-33 258 105 1700-20 275 0.82 85 92.9 33.5 118.9 -18.2 1828 -8 291 351 1926 218011 2Th 1023-22 166 111 1150-23 188 0.59 58 77.7 29.5 193.2 15.6 1317-18 209 233 1604 21811022Mo 1236-25 202 84 1430-16 228 1.72 t51 82.3 30.7 153.7 11.3 1623 -1 251 295 1627 2182 418Th 2119 20 324 190 2209 24 336 0.19 12 84.7 31.3 42.9 -10.3 2258 26 349 228 1824 21821011Fr 2322 44 1 23 2432 42 23 0.44 39 88.8 32.4 3.8 6.6 2542 36 44 278 3011 2184 226Th 824-17 128 42 1000-26 150 0.80 83 78.8 29.8 228.1 8.3 1136-30 176 318 624 2184 821Sa 2152 22 333 115 2333 26 358 1.14 t28 88.3 32.2 22.4 -11.2 2514 23 25 217 1836 2185 214Mo 1308-23 202 127 1458-14 227 1.54 t48 84.5 31.4 154.0 12.9 1648 0 249 311 1651 2186 2 4Sa 155 46 48 129 255 39 64 0.33 25 90.5 33.0 334.7 17.0 356 30 77 187 725 2187 620We 2245 14 348 166 2338 14 0 0.21 13 81.8 30.4 21.0 -22.6 2431 13 12 205 2730 21871215Sa 1820 25 266 89 1953 39 284 0.82 86 84.8 31.5 75.6 22.7 2125 51 307 328 1518 218812 3We 2315 59 357 87 2510 54 44 1.56 t50 78.9 29.9 355.0 22.4 2705 39 75 209 3148 2189 529Fr 2306 14 354 69 2428 13 13 0.69 71 92.7 33.4 7.2 -22.4 2551 9 31 303 2722 21891122Su 2346 58 12 122 2448 54 37 0.28 20 77.2 29.4 359.2 21.1 2551 47 57 161 3135 2191 4 9Sa 1758 -3 279 186 1936 11 298 0.91 94 82.8 30.8 81.6 -7.4 2114 21 320 291 1817 219110 2Su 2211 38 337 41 2340 40 5 0.83 86 90.5 32.9 17.6 3.4 2509 37 32 256 3001 2192 328We 2056 24 315 132 2250 32 345 1.41 t46 78.0 29.6 33.5 -3.7 2445 31 18 301 1749 2192 921Fr 1411-29 229 96 1556-15 251 1.62 t47 92.8 33.5 134.1 -0.1 1741 1 272 271 1735 2193 317Su 2147 32 325 70 2228 35 337 0.12 6 78.1 29.6 39.5 0.1 2310 37 349 15 1731 2193 911We 656-17 105 85 751-24 117 0.25 18 89.5 32.6 256.0 -3.5 845-31 130 153 458 2195 126Mo 021 56 15 130 153 48 48 0.93 96 91.5 33.3 350.1 19.2 324 36 72 222 736 2195 722We 550-19 79 14 743-35 101 1.26 t39 78.1 29.4 261.1 -20.5 936-50 129 239 331 2196 115Fr 1551 1 236 130 1736 14 255 1.59 t47 91.5 33.3 113.3 20.9 1920 29 275 336 1546 2197 1 4We 600 13 108 4 658 5 118 0.27 20 86.3 31.9 271.5 21.8 755 -2 129 310 740 2198 520Su 2321 16 358 59 2444 14 17 0.71 73 93.0 33.5 3.1 -20.9 2607 9 35 292 2735 21981113Tu 1805 21 267 165 1928 34 284 0.54 51 77.8 29.6 78.9 18.8 2052 45 304 249 1535 2199 510Fr 1532-32 258 143 1719-17 278 1.73 t50 90.6 32.8 114.4 -17.7 1906 -2 298 310 1921 219911 2Sa 2028 39 303 108 2221 50 337 1.78 t52 82.5 30.8 35.6 14.9 2414 51 20 247 1555 2200 430We 438 -4 71 124 538-13 82 0.28 21 84.4 31.2 290.0 -13.9 638-21 93 186 413 22001023Th 724-11 122 356 838-19 138 0.51 47 89.1 32.5 241.7 10.7 953-25 155 287 605 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