Have you hear of Tycho Brahe? There is no need to re-invent the wheel, and you would need a fortune to come up with instruments that would duplicate the accuracy of his measurements. Kepler used these measurements to refine our concepts regarding planetary motion. You can't do any of that with pencil-on-paper sketches. You need accurate time-keeping, accurate altitude measurements, and accurate transit-times to establish the celestial positions of visible objects.Opus_723 said:I was wondering how someone would go about charting stars on their own, pencil and paper style. Particularly, I was curious how astronomers charted the positions of stars and paths of planets hundreds of years ago, and was hoping to replicate this. I understand it's probably very involved, but maybe there are some resources on the web I haven't been able to find?
turbo-1 said:You need accurate time-keeping, accurate altitude measurements, and accurate transit-times to establish the celestial positions of visible objects.
I beg to disagree. Without a coordinate system, all you'll have is a drawing, not a map. To accurately place celestial bodies on a map, you need to measure their Right Ascension as well as their Declination, and that requires precise timing. That goes to the heart of the longitude problem facing mariners before the invention of accurate chronometers. They could judge their latitude quite well, but without accurate time-keeping, longitude was a huge problem. In fact, the man who finally solved that problem by inventing the marine chronometer was awarded the modern equivalent of almost $5 million by Parliament.Borek said:That's not entirely true. You can make quite a good map just by measuring angles with a sextant. Other data is needed "only" to correctly orient the map.
turbo-1 said:To accurately place celestial bodies on a map, you need to measure their Right Ascension as well as their Declination, and that requires precise timing.
russ_watters said:...so you need a sextant and a clock. So what's the big deal?
turbo-1 said:Are you handy with tools? You could make a home-made transit telescope and mount it on a large vertical setting circle marked off in degrees of declination. Align it directly north and south and as brighter stars come close to that N-S line read off the time that they cross your field of view and record the time as the local right-ascension of the star and read the declination off of the setting circle, then mark the position of the star on a gridded paper. That's the old-fashioned method. Of course, lines of right ascension converge as you approach the poles, so this simplified method would work best at lower declinations where the lines of declination and right ascension are more "parallel".
"Map the Sky: Charting Stars & Planets Pencil & Paper Style" is a hands-on activity that allows individuals to create their own map of the night sky using a pencil and paper. It is a fun and educational way to learn about the stars and planets in our solar system.
To participate in "Map the Sky: Charting Stars & Planets Pencil & Paper Style", you will need a pencil, paper, and a clear view of the night sky. Simply follow the instructions provided and use your pencil to mark the locations of stars and planets on your map.
"Map the Sky: Charting Stars & Planets Pencil & Paper Style" can teach you about the different constellations, stars, and planets in the night sky. It can also help you understand their movements and patterns, as well as their significance in different cultures and mythologies.
Yes, "Map the Sky: Charting Stars & Planets Pencil & Paper Style" is suitable for all ages. It is a fun and engaging activity for children and adults alike, and can be adjusted to accommodate different levels of knowledge and skill.
Yes, "Map the Sky: Charting Stars & Planets Pencil & Paper Style" can be used to map the night sky in different locations. The constellations, stars, and planets may appear differently depending on your location, so it can be a great way to compare and contrast the night sky in different places.