u/clemaneuverers The time stamps of your replies show that you have seen this comment and have yet to reply to it. So what's going on buddy? You over there furiously typing out a retort to this comment?
your reply was incoherent and not worth replying to. You assume you should see... a dip. Based on where you place your cursor on screen. That is not well articulated. Certainly not proof of anything. Waste of time even writing this to be honest.
Why is it so high in the sky? Why doesn't it dip to the horizon like the north pole? Why is it so large? Why is it's path an oval? To compare:
https://www.youtube.com/watch?v=oGlx9stITXY
This particular video is not done at the south pole, but somewhere near the coast of Antarctica I think. For one done at the south pole see:
https://vimeo.com/208466944
Yes. And it's still not dipping! I put my mouse pointer over it, where is the tilt!
https://www.timeanddate.com/astronomy/axial-tilt-obliquity.html
u/clemaneuverers The time stamps of your replies show that you have seen this comment and have yet to reply to it. So what's going on buddy? You over there furiously typing out a retort to this comment?
https://www.youtube.com/watch?v=KS6f1MKpLGM
your reply was incoherent and not worth replying to. You assume you should see... a dip. Based on where you place your cursor on screen. That is not well articulated. Certainly not proof of anything. Waste of time even writing this to be honest.