Where there is a head there is a tail.
In other words the southern photo is the ass.
zin zang
Try this - sit on one of those office chairs that spins in your house, and spin. Look around you, and you'll see that there is one spot directly overhead that isn't moving. Does that mean your house is orbiting that one spot?
If you then tilt your chair to a different angle and spin it, does that mean your house is now orbiting the new stationary point?
Your NASA fake space photos proves nothing when NASA is the leader in RE conspiracy.
Any one on earth with a time lapse camera can take a photo showing every star going around Polaris yet you need a NASA photo which no one else
can duplicate to prove everyone on earths photo is wrong?
No, you're wrong. Everybody on earth can take a picture that shows every star INCLUDING POLARIS, spining around the celestial pole.
https://www.gettyimages.ie/detail/photo/long-exposure-polaris-star-trails-high-res-stock-photography/121831180Seriously - look at that link and see that Polaris is also "orbiting".
NASA them self claims they use Polaris as their guide. They don't use the sun.
Why would they not use the sun is it was the center?
What are you talking about? When did Nasa say this?
If you're talking about celestial navigation, it's because the sun is too close to you to be used as a guide for more than a day or so - as you orbit the sun, its apparent position changes. The stars are far enough away that no matter how you move, the stars don't move much. They do move a TINY BIT, but not enough to make them less useful for navigation.
Put a filter on your camera and do a time lapse of the sun and see what obits it.
You can see mercury and venus orbiting the sun. Here's an animation of what you'd observe of Mercury's orbit. The ellipse has been left in for you to see it.
https://astronomynow.com/2016/04/13/catch-a-glimpse-of-planet-mercury-at-its-best-in-the-evening-twilight/Venus is the same thing.
Now, imagine for a moment that Earth also orbits the sun - what would that look like? Hint: Exactly what we see year in and year out.
Now - imagine more distant planets - what would their path across the sky look like? They basically go in a circle around us, with a pause to go backwards a little each year as Earth goes speeding by them, since their orbit is much slower than Earth's.