Letter from Roger Jewell see Whats New Item 96 and Whats New Item 163
To:
Beyond –2012, What’s New,
Reviewer: January 19, 2005
I would first like to thank you for your review of my book, Riding The Wild Orb. It is apparent you read it carefully. There are, however, a few comments I would like to make for your consideration.
I have numbered the seven paragraphs and will reply on that basis.
Paragraph 1: Excellent
Paragraph 2: Excellent.
With regards to the 52 years some translators use on the Mayan Calendar, I think it might mean 52 Earth/Venus conjunction cycles instead. I admit I am quite limited on the native interpretations of the Mayan Calendar and can only discuss what I am able to observe. However, I do believe it was an observable process.
Paragraph 3: Excellent
It was nice to see the conformation from a different source.
Paragraph 4:
I would like to comment on the following quote: “Jewell implies . . . geomagnetic reversal.” Perhaps you didn’t understand it as I described it. I am sorry for the confusion evident in pages 103-108, but the process is quite complex. What I was saying is (Similar to the magnetic field variations within our Solar System) wherever light can pass in deep space, there is also charged sub-atomic particles which react in a similar fashion. These charged particles could be arranged in broad bands, with voids between the bands. These voids could be like the voids free of metal filings in the two experiments that are displayed on page 110, only millions of miles broader.
If our entire solar system passes through one of these bands devoid of charged sub-atomic particles, it would be as if we had our power turned off. This may allow the earth’s crust to slip or adjust to some other magnetic reality, causing what we think of as a ‘Pole Shift’. Spirit (Mr."B") called this process ‘No-time’, since linear time, as we know it, somehow would cease to exist. I know this may seem impossible, but that was the conversation.
I have in no-way speculated when we may encounter such a galactic magnetic wave or band. Definitely, I saw no correlation between the locations of Venus and Jupiter on 2012 and any possible pole-shift. Not to say something might not happen, I just saw no evidence of anything.
Paragraph 5& 6:
The discrepancies noted in 5 & 6 may have had something to do with how we did our calculations. The cycles were developed using heliocentric values. They were based on the average daily progression of a planet along its orbit (the length of its year). These values change depending what grouping of years you average. In my work for Venus, I used a daily progression of 1.603093. I used 1.60212 from some other source back in 1988. A recent web source lists 224 days and 16.8 hours. This would yield a progression rate of 1.602136 degrees. They all come within a few days in 83 years. There are 30,316 days in 83 years. The calculations are as follows:
Venus:
30,316 days x 1.603093 degrees / 360 degrees = 134.99824 Venus Years (Orbits).
Jupiter: 30,316 days x .0830767 degrees / 360 degrees = 6.99598 Jupiter
years (Orbits)
As you can plainly see, the orbits, if started a zero, would be extremely close to zero after 83 years. Remember this is just a mathematical example, based on average length of the planetary years. What it says is, if some particular pattern between Jupiter and Venus was observed on the spring equinox it should be visible 83 years later on the same spring equinox.
This can be shown by comparing the visual setting azimuths from The Floppy Almanac (Ice Version) between March 21st, 1929 and March 21st, 2012. We find the following visual results in the Rise and Set Tables from the ICE program.
Jupiter: March 21,
1929, Set Azimuth, 289 degrees
Jupiter: March 21, 2012, Set
Azimuth, 289 degrees
Venus: March 21, 1929, Set
Azimuth, 297 degrees
Mars: March 21,
1929, Set Azimuth, 305 degrees
Mars: March 21, 2012,
Set Azimuth, 287 degrees
Moon: March 21, 1929, Set
Azimuth, 294 degrees
Moon: March 21, 2012, Set
Azimuth, 273 Degrees
Moon: March 24, 2012, Set Azimuth, 289 Degrees (3 days late)
As can be seen, the visuals will look exactly the same for Jupiter and Venus, when the equinox dates are 83 years apart. Mars is also very close. The crescent moon is within 4 days. Some references say there were five holy days, but I cannot fully express this with facts. We know the moon is not a perfect calendar.
All I can say about the summer solstices of 1991 is that. I know what I saw, but I did not check the date. I attended an interpretive storytelling event on the beach. My naturalist said it was to celebrate the summer solstice. I assumed it was held on the solstice. Now when I check the Rise and Set Table for that night, I can see you are right. My only explanation is it must have been 4 or 5 days before the actual solstice. I know the moon was in the crescent phase and in the proximity of the planet group, because it made me think of the crescent moon and star on one of the Middle Eastern flags. See chart and asterisks (****) below. I apologize for this error.
Date ¦ TDT JD TDT Time ¦ Rise (Azm) Trans (Alt) Set (Azm)
h m s h m ° h m ° h m °
1991
Jun 16 2448424.166210
15 59 20.5 8 17
( 75) 15 10 (s60)
21 50 (281) ****
1991 Jun 17 2448425.200523 16 48 45.2 9 28 ( 83) 15 58 (s54) 22 17 (273)****
1991 Jun 18 2448426.232920 17 35 24.3 10 36 ( 91) 16 45 (s48) 22 43 (265)
1991 Jun 19 2448427.264312 18 20 36.6 11 42 ( 99) 17 30 (s42) 23 09 (258)
1991 Jun 20 2448428.295520 19 05 32.9 12 47 (106) 18 15 (s37) 23 35 (251)
1991 Jun 21 2448429.327206 19 51 10.6 13 50 (112) 19 01 (s32) f 0 05 (245)
The 2.4 degrees difference (we are all cross-eyed): This is a concept that is very hard to grasp. In Riding The Wild Orb, it starts with the last paragraph on page 183 and continues through paragraph 3, 4 and 5 on page 184. My questions come from the concept that the sacred solids (Rhythms and Visions) are evident in nature and even our DNA. Yet, as we perceive them in the sky vibrations, they do not seem perfect (2.4 deg. error). What Mr. “B” was saying is all of mankind in the third dimension sees time as linear, when it really is not. This is error. Therefore, we perceive the unclosed pentagram. In the holographic multi-dimensional universe the frequency of the Earth/Venus/Sun dance is a perfect 72-degree angle frequency. Since I too am apparently cross-eyed, I am unable to grasp the concepts of the multi-dimensional universe or explain it further.
Here is one further comment on the year 2012. I know I said there was no proof on any pole-shift eminent on March 21, 2012, but it does indicate a weather pattern similar to the drought situation in 1929 that ran into the early thirties. This was known as the dust bowl years. In 2012, we can expect a very dry spring in the grain belt of the USA. Rain may come in late June to save the season, but the real drought will just be beginning. It will reach its maximum with an extremely hot dry year in 2020. Hopefully, we will still be here to see it.
Paragraph 7:
I repeat, I do appreciate your thoughtful review of my book. The concept of information from a channeler is probably “Codswallop” to many, (an interesting word, by the way. I can only guess what it means). I would like to add, I do not channel. This was done by a subconscious channel that wishes to remain anonymous. I received advice from many not to include the channeled information in this book. However, I felt it was absolutely necessary. The weather cycles caused by the progression of the poles are quite well known, both now and in ancient times. The existence of a possible galactic magnetic wave is quite another matter. The existence of such a magnetic wave that could be responsible for the occasional magnetic pole shifts on earth was a new idea to me that needed to be explored. The belief that this new information must be shared was the key reason for the creation of this book.
The concept of our three dimensional world being a ‘light construct’ that exists in some unknown format, while we are in suspended animation zone called no-time, was shocking to me. The additional concept that the earth changes (many of us believe might have happened in the past), could take place during the process, also answered a lot of my questions. These new ideas were just too big for me to ignore. I am willing to be called almost anything (even a promoter of codswallop) if a few talented scientists will take a closer look at these ideas and move mankind a little forward.
Sincerely,
Roger L. Jewell /s/ Author of, Riding The Wild Orb
Appendix
– Tables Printed from The Floppy Almanac- Ice Version
Topocentric Ephemeris of JUPITER
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt)
Set (Azm)
h m s h m ° h m ° h m °
2012 Mar 14 2456001.124735 14 59 37.1 7 09 ( 71) 13 59 (s64) 20 49 (289)
2012 Mar 15 2456002.122547 14 56 28.1 7 06 ( 71) 13 56 (s64) 20 46 (289)
2012 Mar 16 2456003.120364 14 53 19.4 7 02 ( 71) 13 53 (s64) 20 43 (289)
2012 Mar 17 2456004.118184 14 50 11.1 6 59 ( 71) 13 50 (s64) 20 40 (289)
2012 Mar 18 2456005.116008 14 47 03.1 6 56 ( 71) 13 46 (s64) 20 37 (289)
2012 Mar 19 2456006.113835 14 43 55.4 6 52 ( 71) 13 43 (s64) 20 35 (289)
2012 Mar 20 2456007.111667 14 40 48.0 6 49 ( 71) 13 40 (s64) 20 32 (289)
2012
Mar 21 2456008.109501
14 37 40.9 6 45
( 71) 13 37 (s64)
20 29 (289)
2012 Mar 22 2456009.107340 14 34 34.1 6 42 ( 71) 13 34 (s64) 20 26 (289)
2012 Mar 23 2456010.105181 14 31 27.7 6 39 ( 71) 13 31 (s64) 20 23 (290)
Topocentric Ephemeris of VENUS
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt) Set
(Azm)
h m s h m ° h m ° h m °
2012 Mar 14 2456001.122850 14 56 54.3 6 55 ( 67) 13 57 (s67) 21 00 (293)
2012 Mar 15 2456002.122958 14 57 03.6 6 54 ( 67) 13 57 (s67) 21 01 (294)
2012 Mar 16 2456003.123064 14 57 12.7 6 52 ( 66) 13 57 (s68) 21 03 (294)
2012 Mar 17 2456004.123167 14 57 21.6 6 51 ( 66) 13 57 (s68) 21 05 (295)
2012 Mar 18 2456005.123266 14 57 30.2 6 49 ( 65) 13 58 (s69) 21 07 (295)
2012 Mar 19 2456006.123363 14 57 38.5 6 48 ( 65) 13 58 (s69) 21 08 (296)
2012 Mar 20 2456007.123455 14 57 46.5 6 47 ( 64) 13 58 (s69) 21 10 (296)
2012 Mar 21 2456008.123543 14 57 54.1 6 45 ( 64) 13 58 (s70) 21 11 (297)
2012 Mar 22 2456009.123625 14 58 01.2 6 44 ( 63) 13 58 (s70) 21 13 (297)
2012 Mar 23 2456010.123702 14 58 07.9 6 43 ( 63) 13 58 (s70) 21 14 (298)
Topocentric Ephemeris of MARS
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt)
Set (Azm)
h m s h m ° h m ° h m °
2012 Mar 14 2456001.470856 23 18 01.9 15 35 ( 74) 22 17 (s62) f 4 59 (286)
2012 Mar 15 2456002.467177 23 12 44.1 15 30 ( 74) 22 12 (s62) f 4 54 (286)
2012 Mar 16 2456003.463516 23 07 27.8 15 24 ( 74) 22 06 (s62) f 4 49 (286)
2012 Mar 17 2456004.459875 23 02 13.2 15 18 ( 74) 22 01 (s62) f 4 44 (286)
2012 Mar 18 2456005.456256 22 57 00.5 15 13 ( 74) 21 56 (s62) f 4 39 (286)
2012 Mar 19 2456006.452660 22 51 49.8 15 07 ( 74) 21 51 (s62) f 4 34 (287)
2012 Mar 20 2456007.449088 22 46 41.2 15 02 ( 73) 21 46 (s62) f 4 29 (287)
2012
Mar 21 2456008.445542
22 41 34.8 14 57 ( 73)
21 41 (s62) f 4 25 (287)
2012 Mar 22 2456009.442022 22 36 30.7 14 51 ( 73) 21 35 (s62) f 4 20 (287)
2012 Mar 23 2456010.438531 22 31 29.1 14 46 ( 73) 21 30 (s62) f 4 15 (287)
Topocentric Ephemeris of MOON
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦ TDT JD TDT Time ¦ Rise (Azm) Trans (Alt) Set (Azm)
h m s h m ° h m ° h m °
2012 Mar 15 2456001.761667 6 16 48.0 0 36 (119) 5 28 (s29) 10 23 (242)
2012 Mar 16 2456002.800622 7 12 53.8 1 25 (117) 6 24 (s30) 11 26 (245)
2012 Mar 17 2456003.837507 8 06 00.6 2 07 (113) 7 16 (s33) 12 31 (249)
2012 Mar 18 2456004.872217 8 55 59.5 2 43 (108) 8 06 (s37) 13 35 (254)
2012 Mar 19 2456005.904986 9 43 10.8 3 15 (103) 8 53 (s41) 14 37 (260)
2012 Mar 20 2456006.936248 10 28 11.9 3 44 ( 97) 9 37 (s46) 15 38 (266)
2012
Mar 21 2456007.966518
11 11 47.2 4 11
( 90) 10 21 (s51)
16 38 (273)
2012 Mar 22 2456008.996316 11 54 41.7 4 38 ( 84) 11 04 (s56) 17 37 (279)
2012 Mar 23 2456010.026128 12 37 37.4 5 06 ( 79) 11 47 (s60) 18 36 (284)
2012 Mar 24 2456011.056368 13 21 10.2 5 35 ( 73) 12 30 (s64) 19 34 (289)
Geocentric Configurations for 2012 Mar 20 AT 12 00 00 TDT
Position wrt Sun (Moon Phase)
Object RA Dec Dist HA Diff Elong Mag Dia %Il
h m s ° ' AU h m ° "
SATURN 13 48 16 - 8 13.9 8.8234 +10 13 W 152 .3 19 100
NEPTUNE 22 15 38 -11 23.4 30.8706 + 1 45 W 29 8.0 2 100
MOON 22 24 37 - 4 31.9 .0026 + 1 36 W 25 (CRESCENT) 5
SUN 0 01 01 + 0 06.7 .9960
URANUS 0 16 46 + 1 03.8 21.0661 - 0 16 E 4 5.9 3 100
MERCURY 0 04 33 + 4 13.6 .6181 - 0 04 N 4 4.7 11 1
JUPITER 2 34 51 +14 13.2 5.7017 - 2 34 E 41 -2.1 35 100
VENUS 2 51 27 +19 08.5 .7612 - 2 50 E 46 -4.3 22 55
MARS 10 42 42 +12 13.7 .6973 -10 42 E 157 -1.0 13 99
Topocentric Ephemeris of JUPITER
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -4
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt)
Set (Azm)
h m s h m ° h m ° h m °
1929 Mar 15 2425686.124639 14 59 28.8 9 09 ( 71) 15 59 (s64) 22 49 (289)
1929 Mar 16 2425687.122452 14 56 19.8 9 05 ( 71) 15 56 (s64) 22 46 (289)
1929 Mar 17 2425688.120268 14 53 11.2 9 02 ( 71) 15 53 (s64) 22 43 (289)
1929 Mar 18 2425689.118088 14 50 02.8 8 59 ( 71) 15 49 (s64) 22 40 (289)
1929 Mar 19 2425690.115912 14 46 54.8 8 55 ( 71) 15 46 (s64) 22 37 (289)
1929 Mar 20 2425691.113739 14 43 47.1 8 52 ( 71) 15 43 (s64) 22 35 (289)
1929
Mar 21 2425692.111570
14 40 39.7 8 49
( 71) 15 40 (s64)
22 32 (289)
1929 Mar 22 2425693.109405 14 37 32.6 8 45 ( 71) 15 37 (s64) 22 29 (289)
1929 Mar 23 2425694.107242 14 34 25.7 8 42 ( 71) 15 34 (s64) 22 26 (289)
1929 Mar 24 2425695.105083 14 31 19.2 8 38 ( 70) 15 31 (s64) 22 23 (290)
Topocentric Ephemeris of VENUS
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -4
¦ Ephemeris Transit ¦
Date ¦ TDT JD TDT Time ¦ Rise (Azm) Trans (Alt) Set (Azm)
h m s h m ° h m ° h m °
1929 Mar 15 2425686.103686 14 29 18.5 8 23 ( 66) 15 29 (s68) 22 35 (295)
1929 Mar 16 2425687.102132 14 27 04.2 8 20 ( 65) 15 27 (s68) 22 34 (295)
1929 Mar 17 2425688.100508 14 24 43.9 8 16 ( 65) 15 24 (s69) 22 33 (295)
1929 Mar 18 2425689.098810 14 22 17.2 8 13 ( 65) 15 22 (s69) 22 31 (296)
1929 Mar 19 2425690.097035 14 19 43.8 8 09 ( 64) 15 19 (s69) 22 30 (296)
1929 Mar 20 2425691.095181 14 17 03.6 8 06 ( 64) 15 16 (s69) 22 28 (296)
1929 Mar 21 2425692.093244 14 14 16.3 8 02 ( 64) 15 14 (s70) 22 26 (297)
1929 Mar 22 2425693.091221 14 11 21.5 7 58 ( 63) 15 11 (s70) 22 24 (297)
1929 Mar 23 2425694.089110 14 08 19.1 7 54 ( 63) 15 08 (s70) 22 21 (297)
1929 Mar 24 2425695.086908 14 05 08.8 7 51 ( 63) 15 04 (s70) 22 19 (297)
Topocentric Ephemeris of MARS
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -4
¦ Ephemeris Transit ¦
Date ¦ TDT JD TDT Time ¦ Rise (Azm) Trans (Alt) Set (Azm)
h m s h m ° h m ° h m °
1929 Mar 15 2425686.275445 18 36 38.5 11 57 ( 55) 19 36 (s76) f 3 15 (305)
1929 Mar 16 2425687.273927 18 34 27.3 11 55 ( 55) 19 34 (s76) f 3 13 (305)
1929 Mar 17 2425688.272423 18 32 17.4 11 53 ( 55) 19 32 (s76) f 3 11 (305)
1929 Mar 18 2425689.270932 18 30 08.5 11 51 ( 55) 19 30 (s76) f 3 09 (305)
1929 Mar 19 2425690.269454 18 28 00.8 11 49 ( 55) 19 28 (s76) f 3 06 (305)
1929 Mar 20 2425691.267987 18 25 54.1 11 47 ( 55) 19 25 (s76) f 3 04 (305)
1929
Mar 21 2425692.266533
18 23 48.4 11 45 ( 55)
19 23 (s76) f 3 02 (305)
1929 Mar 22 2425693.265090 18 21 43.8 11 43 ( 55) 19 21 (s76) f 3 00 (305)
1929 Mar 23 2425694.263658 18 19 40.1 11 41 ( 55) 19 19 (s76) f 2 58 (305)
1929 Mar 24 2425695.262237 18 17 37.3 11 39 ( 55) 19 17 (s76) f 2 55 (305)
Topocentric Ephemeris of MOON
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -4
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt)
Set (Azm)
h m s h m ° h m ° h m °
1929 Mar 15 2425686.151283 15 37 50.8 9 36 ( 68) 16 49 (s68) f 0 15 (296)
1929 Mar 16 2425687.189560 16 32 57.9 10 11 ( 61) 17 45 (s73) f 1 29 (302)
1929 Mar 17 2425688.230317 17 31 39.4 10 55 ( 57) 18 44 (s76) f 2 41 (305)
1929 Mar 18 2425689.272825 18 32 52.1 11 47 ( 54) 19 46 (s77) f 3 45 (306)
1929 Mar 19 2425690.315672 19 34 34.1 12 50 ( 55) 20 47 (s76) f 4 39 (304)
1929 Mar 20 2425691.357265 20 34 27.7 13 59 ( 57) 21 46 (s74) f 5 24 (300)
1929
Mar 21 2425692.396463
21 30 54.4 15 12 ( 63)
22 42 (s69) f 6 00 (294)
1929 Mar 22 2425693.432878 22 23 20.7 16 24 ( 69) 23 34 (s64) f 6 30 (287)
1929 Mar 23 2425694.466759 23 12 08.0 17 35 ( 77) f 0 22 (s59) f 6 57 (279)
1929 Mar 24 2425695.498711 23 58 08.6 18 43 ( 85) f 1 07 (s52) f 7 21 (271)
Geocentric Configurations for 1929 Mar 18 AT
0 00 00 TDT
Position wrt Sun (Moon Phase)
Object RA Dec Dist HA Diff Elong Mag Dia %Il
h m s ° ' AU h m ° "
SATURN 18 00 25 -22 15.4 10.0482 + 5 48 W 87 .5 16 100
MERCURY 22 21 39 -12 20.9 1.1243 + 1 27 W 24 -.1 6 73
SUN 23 48 40 - 1 13.7 .9955
URANUS 0 25 51 + 2 03.6 21.0353 - 0 37 E 10 5.9 3 100
VENUS 2 04 02 +18 42.9 .4181 - 2 15 E 39 -4.6 40 25
JUPITER 2 32 15 +14 01.3 5.6673 - 2 44 E 43 -2.1 35 100
MOON 5 27 35 +25 47.7 .0025 - 5 39 E 86 (CRESCENT) 46
MARS 6 12 04 +25 53.6 1.2190 - 6 23 E 96 .6 8 90
NEPTUNE 10 06 31 +12 17.3 29.2516 -10 18 E 152 7.9 2 100
Topocentric Ephemeris of JUPITER
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt)
Set (Azm)
h m s h m ° h m ° h m °
1991 Jun 15 2448423.140922 15 22 55.6 7 16 ( 66) 14 22 (s68) 21 28 (294)
1991 Jun 16 2448424.138694 15 19 43.2 7 13 ( 66) 14 19 (s68) 21 25 (294)
1991
Jun 17 2448425.136471
15 16 31.1 7 10
( 66) 14 16 (s68)
21 21 (294)
1991 Jun 18 2448426.134250 15 13 19.2 7 07 ( 66) 14 13 (s68) 21 18 (294)
1991 Jun 19 2448427.132032 15 10 07.6 7 04 ( 66) 14 09 (s68) 21 14 (294)
1991 Jun 20 2448428.129817 15 06 56.2 7 01 ( 66) 14 06 (s68) 21 11 (294)
1991
Jun 21 2448429.127606
15 03 45.1 6 58
( 66) 14 03 (s68)
21 08 (294)
1991 Jun 22 2448430.125397 15 00 34.3 6 55 ( 66) 14 00 (s68) 21 04 (294)
1991 Jun 23 2448431.123191 14 57 23.7 6 53 ( 66) 13 57 (s68) 21 01 (294)
1991 Jun 24 2448432.120988 14 54 13.3 6 50 ( 66) 13 54 (s68) 20 57 (294)
Topocentric Ephemeris of VENUS
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦
TDT JD
TDT Time ¦
Rise (Azm) Trans (Alt)
Set (Azm)
h m s h m ° h m ° h m °
1991 Jun 15 2448423.136068 15 15 56.3 7 02 ( 63) 14 16 (s70) 21 29 (297)
1991 Jun 16 2448424.135955 15 15 46.5 7 03 ( 63) 14 16 (s70) 21 28 (296)
1991
Jun 17 2448425.135808
15 15 33.8 7 04
( 64) 14 16 (s69)
21 26 (296)
1991 Jun 18 2448426.135624 15 15 17.9 7 05 ( 64) 14 15 (s69) 21 25 (295)
1991 Jun 19 2448427.135405 15 14 59.0 7 06 ( 65) 14 15 (s69) 21 23 (295)
1991 Jun 20 2448428.135148 15 14 36.8 7 07 ( 65) 14 15 (s68) 21 21 (294)
1991
Jun 21 2448429.134855
15 14 11.4 7 08
( 66) 14 14 (s68)
21 20 (294)
1991 Jun 22 2448430.134522 15 13 42.7 7 09 ( 66) 14 14 (s68) 21 18 (294)
1991 Jun 23 2448431.134151 15 13 10.6 7 09 ( 67) 14 13 (s67) 21 16 (293)
1991 Jun 24 2448432.133740 15 12 35.1 7 10 ( 67) 14 12 (s67) 21 14 (293)
Topocentric Ephemeris of MARS
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦ TDT JD TDT Time ¦ Rise (Azm) Trans (Alt) Set (Azm)
h m s h m ° h m ° h m °
1991 Jun 15 2448423.142605 15 25 21.1 7 17 ( 65) 14 25 (s68) 21 33 (295)
1991 Jun 16 2448424.141541 15 23 49.1 7 16 ( 65) 14 23 (s68) 21 31 (295)
1991
Jun 17 2448425.140475
15 22 17.0 7 15
( 65) 14 22 (s68)
21 28 (294)
1991 Jun 18 2448426.139407 15 20 44.7 7 14 ( 66) 14 20 (s68) 21 26 (294)
1991 Jun 19 2448427.138337 15 19 12.3 7 14 ( 66) 14 19 (s68) 21 24 (294)
1991 Jun 20 2448428.137266 15 17 39.8 7 13 ( 66) 14 17 (s68) 21 22 (294)
1991
Jun 21 2448429.136193
15 16 07.1 7 12
( 66) 14 16 (s67)
21 19 (293)
1991 Jun 22 2448430.135118 15 14 34.2 7 11 ( 67) 14 14 (s67) 21 17 (293)
1991 Jun 23 2448431.134041 15 13 01.2 7 10 ( 67) 14 13 (s67) 21 15 (293)
1991 Jun 24 2448432.132963 15 11 28.0 7 09 ( 67) 14 11 (s67) 21 12 (293)
Topocentric Ephemeris of MOON
¦ for Greenwich Meridian ¦ for location: Longitude W 75 00.0
¦ ¦ Latitude N 40 00.0
¦ ¦ Time Zone UT -6
¦ Ephemeris Transit ¦
Date ¦ TDT JD TDT Time ¦ Rise (Azm) Trans (Alt) Set (Azm)
h m s h m ° h m ° h m °
1991 Jun 15 2448423.129095 15 05 53.8 7 02 ( 68) 14 17 (s66) 21 20 (288)
1991
Jun 16 2448424.166210
15 59 20.5 8 17
( 75) 15 10 (s60)
21 50 (281)
1991 Jun 17 2448425.200523 16 48 45.2 9 28 ( 83) 15 58 (s54) 22 17 (273)
1991 Jun 18 2448426.232920 17 35 24.3 10 36 ( 91) 16 45 (s48) 22 43 (265)
1991 Jun 19 2448427.264312 18 20 36.6 11 42 ( 99) 17 30 (s42) 23 09 (258)
1991 Jun 20 2448428.295520 19 05 32.9 12 47 (106) 18 15 (s37) 23 35 (251)
1991 Jun 21 2448429.327206 19 51 10.6 13 50 (112) 19 01 (s32) f 0 05 (245)
1991 Jun 22 2448430.359816 20 38 08.1 14 53 (117) 19 48 (s29) f 0 38 (241)
1991 Jun 23 2448431.393513 21 26 39.5 15 54 (121) 20 37 (s26) f 1 17 (237)
1991 Jun 24 2448432.428120 22 16 29.5 16 51 (124) 21 27 (s25) f 2 01 (236)