How to find the Geographical position of a body in the celestial sphere?

This video uses an example to show mariners the procedure of finding the geographical position (GP) of a body in the celestial sphere. If you liked this video, you can become an exclusive member of "Steering Mariners". The membership will provide you with multiple benefits such as extra videos, live streams, and live interaction with me:) Link to membership:    / @steeringmariners   Contents of this video will benefit mariners preparing for exams (written and oral examinations). Mariners will also benefit by watching the following videos: Meridian Passage (Theory):    • Meridian Passage of a celestial body - The...   Meridian passage (Sun – example 1):    • How to calculate the ship's latitude using...   Finding the reading to set on a sextant:    • Finding the reading to set on a sextant - ...   Compass error Amplitude (Sun):    • How to calculate compass error using the a...   Amplitude (Sun):    • Calculate the compass error using the Ampl...   Longitude and time:    • Longitude and time - Relationship between ...   Correcting sextant altitudes:    • Correcting sextant altitudes - Sun, Star, ...   Finding LHA and declination:    • Calculating a celestial body's LHA and dec...   Intercept (Sun):    • Calculating the intercept and position lin...   Staggered observations (Example 1):    • Staggered Observations - Plotting ship's p...   Staggered observations (Example 2):    • Staggered Observations - Celestial Navigation   Longitude, GHA and LHA:    • Relationship between longitude, GHA, and LHA   Ambiguity of chronometer time:    • The ambiguity of chronometer time_obtainin...   Twilight:    • Twilight: Nautical navigation and astronomy   Calculating sunset time:    • Calculating sunset time using tables of in...   Back angle of sextant:    • Back Angles of a Sextant - what is it and ...   Using back angle (Meridian Passage):    • Using the back angle of  Sun's altitude to...   Long by chron (Sun):    • Longitude by chronometer (Long by chron) m...   Ex-meridian (Sun):    • How to use the Ex-meridian method for calc...   Polaris:    • Polaris (Pole Star) - Latitude, PL and Dev...   PZX triangle:    • PZX triangle Rational Horizon diagram - Ce...   Venus as morning or evening star:    • Why Venus is known as the morning and even...   Circumpolar bodies (Theory):    • Circumpolar Bodies Celestial Navigation - ...   Great circle sailing:    • Great Circle Sailing Calculation - with in...   Determining the final (and Initial) course angle:    • How to determine the Final (and Initial) c...   Composite great circle sailing:    • Composite Great Circle Sailing - Ocean Nav...   Calculate departure along a parallel of latitude:    • How to calculate departure (along a parall...   Calculate d’lat and d’long (Plane sailing):    • How to Calculate D'lat and D'long - Part 1...   Plane Sailing (example 4):    • Plane Sailing Calculation - Example 4   Mercator sailing (Example 1):    • How to solve Mercator sailing calculations...   Calculate mean latitude:    / watch   v=iMUazHWo4uY&list=PLjZi6sSb2w5bgOQ9xEL99Z8LBCyKBoNXt&index=10 A trick to remembering formulas in sailings:    • A simple trick to remember the formulas in...   Compare plane sailing to mercator sailing:    • How to compare Plane Sailing to Mercator S...   Day’s work (wind and leeway):    • Day's Work  - with effect of wind and leew...   Horizontal sextant angles:    • Using horizontal sextant angles to plot th...   The use of position lines:    • Coastal Navigation - The use of position l...   Rising and dipping of lights:    • Rising and dipping of lights at sea - Char...   Tidal window calculations:    • Tidal window calculations - Tides (Coastal...