I can't imagine how much time and money militaries spend on putting these kinds of lessons in what would be regarded as a highly advanced gunnery school only for you to demonstrate and teach it within a few hours for free. I've only received informal training in the US Army from a mortar squad on how to set up sighting stakes and deflection aiming method, but I can tell this is quite masterful work. Well done!
😮 impressive.. so you need that January 9th almanac page for a specific celestial buddy 🌞 💫 (Sun, Ursa Minor constellation stars,..), aiming circle (with 🔆 filter), and of course a clock for time ⌚🧭 📍🎯... ✅️🆒️
Not really. Real life data will not work. It does not work with the Sun either. Constellations are kinda OK but postion is way off for arty. I can show how to use Polaris in ARMA if interrested you dont need almanach you can plot out its postion in two steps...
Hello a really good example indeed. By the way, where did you get the information regarding the celestrial objects and their position in the sky is it from a web page?
Sort of... The regular simplified trigononethrical sun postion equatuon works but you need to add or substract some value depending on that particular day. I tried equation of time everything but could not find any algorithm to predict sun movement at that accuracy in ARMA. Simply need to calculate with a function and correct for that day... The funny rhing is that the night sky in ARMA is very prefictable ..
By the way you can use online sun position (azimuth) calculators to determine the specific angle to the sun on a given time. The main problem is is that if you dont have the previously mentioned calculator it is really hard to do all the claculations by hand. @@gezalesko3813
I can't imagine how much time and money militaries spend on putting these kinds of lessons in what would be regarded as a highly advanced gunnery school only for you to demonstrate and teach it within a few hours for free. I've only received informal training in the US Army from a mortar squad on how to set up sighting stakes and deflection aiming method, but I can tell this is quite masterful work. Well done!
Incredible! Fantastic job.
😮 impressive.. so you need that January 9th almanac page for a specific celestial buddy 🌞 💫 (Sun, Ursa Minor constellation stars,..), aiming circle (with 🔆 filter), and of course a clock for time ⌚🧭 📍🎯... ✅️🆒️
Not really. Real life data will not work. It does not work with the Sun either. Constellations are kinda OK but postion is way off for arty. I can show how to use Polaris in ARMA if interrested you dont need almanach you can plot out its postion in two steps...
@@gezalesko3813 of course, I'll be happy to oblige if you do Vid about night Arty fire using Polaris.. really appreciated man.
Hello a really good example indeed. By the way, where did you get the information regarding the celestrial objects and their position in the sky is it from a web page?
Sort of... The regular simplified trigononethrical sun postion equatuon works but you need to add or substract some value depending on that particular day. I tried equation of time everything but could not find any algorithm to predict sun movement at that accuracy in ARMA. Simply need to calculate with a function and correct for that day... The funny rhing is that the night sky in ARMA is very prefictable ..
By the way you can use online sun position (azimuth) calculators to determine the specific angle to the sun on a given time. The main problem is is that if you dont have the previously mentioned calculator it is really hard to do all the claculations by hand.
@@gezalesko3813
Looking forward for the polaris method using this aiming circle, keep on the amazing work