(1111)
 | A table should appear at this position in the text. See Help:Table for formatting instructions. |
To 12 h. 28 m. 42 sec. To 13 h. 43 .40
s. d. m. s. d. m. sec.
The Moons mean Anomaly 2 17 23 52 2 18 4 41
Her true place ♐︎ 4 52 48 ♐︎ 5 33 41
The Argument of Latitude 7 15 12 26 7 15 56 11
The Moons true Latitude South 3 33 0 3 35 37
The Suns true place ♊︎ 12 30 43 ♊︎ 12 33 42
The Suns right Ascension 71 2½ 71 5
Right Ascension of the Mid-heaven 258 13 277 0½
The Mid-heaven ♐︎ 19 10 ♑︎ 6 2S
The Horoscope ♓︎ 1 0 asc ♎︎ 17 48 desc.
The Angle Orient 14 41 13 56
The Moon is dist. from the Horoscope 86 7 47 52
The true Altitude of the Moon's Center 18 11 13 49
The Azimuth from the Horoscope asc. 85 55 46 18½ desc
Her Parallactical Angle 88 58 80 25
The Moons Parallax in
Altitude 52 54 1
Longitude 0 57 8 50
Latitude 52 52 53 16
So the Moons visible place is ♐︎ 4 53 45 ♐︎ 5 24 42
With visible South-Latitude 4 25 52 4 28 53
In Antecedence of the Star 13 46 in cons. 17 11
With South-Latitude than the Star less 1 8 greater 1 53
So the Moons visible motion to 1 h. 14 m. 58 sec. is 30 57
The difference of her apparent Latitudes 3 1
The Angle of her way with the Ecliptick 5 34 0
The Angle of Incidence, under a Parallel to the Ecliptick, through the Moons Center 4 46 32
The Angle of Emersion above the said Parallel 6 19 28
h. m. sec.
Motion seen from the Sub-ingress to 22 28 42 is 1 12
Motion seen from the Emersion to 13 43 40 is 2 16
Time from the
Sub-ingress to 12 28 41 is 2 54t
Emersion to 13 43 40 is 5 28t
Therefore the Stars
Sub-ingress at 12 25 48
Emersion at 13 38 12
The Star's Mora under the Moon 1 12 24
m. sec.
The Latit. of the Star from a line drawn parallel to the Ecliptick, over her Center—
in the
Sub-ingress 1 15 South.
Emersion 1 40 North.In
