can you do a little bit explanation here?In fact, one of the known problems with the TUG that was being studied at the time of the discovery of Neptune (during the mid-nineteenth century) was the orbit of Mercury.
jetset said:In theory:
If mass is created all the sudden, how long does it take for another pre-existing mass to "feel" the new one? is this dependant on the medium through which the "pulse" travels? would it be instant? would it be light speed?
Given that I explained the problem with the orbit of Mercury and the resolution of it by GRT, I guess I'm not quite clear on what you'd like explained.vincentchan said:can you do a little bit explanation here?
The universal speed of gravity attraction, also known as the speed of gravity, is the rate at which gravitational force travels. It is a constant value that is equal to the speed of light, which is approximately 299,792,458 meters per second.
The universal speed of gravity attraction plays a crucial role in the formation and movement of celestial bodies in the universe. It allows for the gravitational pull of massive objects, such as stars and planets, to be felt across vast distances and helps to maintain the stability of the universe.
Yes, according to Einstein's theory of general relativity, the speed of gravity is a constant value that is the same throughout the universe. This means that no matter where you are in the universe, the speed of gravity will remain the same.
The universal speed of gravity attraction was first predicted by Sir Isaac Newton in his law of universal gravitation. However, it was later confirmed to be equal to the speed of light through experiments and observations, such as the bending of light by massive objects and the detection of gravitational waves.
Currently, there is no evidence to suggest that the universal speed of gravity attraction can be exceeded. According to the laws of physics, the speed of light is the ultimate speed limit in the universe, and the speed of gravity is no exception.