(1108)
To 16 h. 39 m. 52 sec. To 17 h. 39 m. 52 sec.
s. d. m. sec. s. d. m. sec.
The-Moons mean Anomaly 2 28 22 56 2 29 1 3
Her true place ♐︎ 4 41 0 ♐︎ 5 18 18
The Argument of Latitude 7 12 4 41 7 12 40 10
The Moons true Latit. South 3 32 0 3 34 30
The Horizontal Semi-diameter 15 21 15 21
The Horizontal Parallax 56 45 56 45
The Suns true place ♓︎ 22 57 21 ♓︎ 23 0 15
The Suns right Ascension 353 32 353 35
The right Ascenfion of the Mid-heaven 243 30 261 3
The Mid-heaven ♐︎ 26 ♐︎ 21 47
The Horoscope ♒︎ 3 10 ♒︎ 7 31
The Angle Orient 18 42 14 15
The ☽ from the Ascend. in the-Eclipt. 58 29 87 47
The ☽ from the In a great Circle 58 33 87 47½
The true Altit. of the Moons Center 19 21 17 45
Her Azimuth from the Horoscope 56 26 87 40
Her Parallactical Angle 79 47 89 26
Her Parallax in
Altitude 53 50 54 18
Longitude 9 33 9 32
Latitude 52 59 54 18
Therefore her apparent place ♐︎ 4 50 33 ♐︎ 17 46
In Antecedence of the Star 16 41 in cons. 10 26
With Latitude South, then the Star less 2 1 more 1 48
So her visible motion to 1 h. 10 m. is 0 27 13
The difference of her Latitudes 0 3 49
The Angle of her visible way with the Ecliptick 7 59 0
The Angle of Incidence under a parallel line to the Ecliptick 6 45 32
Angle of emersion above the line drawn by the Moons Center 9 12 28
h. m. sec.
The apparent motion from 16 39 53. to the sub-ingress 1 27
The apparent motion from 17 39 52. to the emersion 4 49
The time from
16 39 to the sub-ingress 3 46t
17 39 52. to the egress of the Star 13 32
h. m. sec.
Therefore at Derby the
sub-ingress 16 43 18
emerstion 18 0 24
P. M
The Stars Mora under the Moon 1 18 46.
m. sec.
The Stars Latitude from a line drawn through the Moons Center parallel to the Ecliptick
in the
Ingress 1 54 South
Egress 3 7 NorthAt
