Path of Mercury and general relativity

Question

I have read that many physicists challenge the theory of general relativity, and it has been proved many times that it is correct; my question is on Mercury's orbit. And we know that many of astronomers know that Mercury orbit does not precess, and astronomers said that result would, t be same because quoting the article from my chat discussion.

If we calculate the orbit of Mercury using Newtonian gravity then in fact we find it does precess. This precession is caused by interactions with the other planets. But when you calculate the precession using Newtonian gravity you find it gives a value that is too low. That is when we observe Mercury we find it precesses faster than Newtonian gravity predicts,it is Because of the gravitational filed of other planet ''.

So my question do we have another proof other than assumptions of calculation - I mean do we have some significant events that prove that we were correct?.

Edit:) due to some close request I clear again the my question is not based that how GR proof mercury orbit precession. So that duplicate question doesn, t answer my question.

Answer 1

And we know that many of astronomers know that mercury orbit does not precess ...

Mercury's orbit does precess, by a good amount. The greatest amount is explained by Newtonian mechanics. Venus, Jupiter, and to a lesser extent, all the other planets, make Mercury's orbit precess by over 500 arcseconds per century. A key problem of the latter half of the 19th century was that the calculated precession of Mercury disagreed with its observed precession by 46 arcseconds per century.

General relativity fully explains this apparent discrepancy. This postdiction was one of the key reasons that general relativity was accepted so quickly compared to many other scientific theories that represented a radical change from orthodoxy.