Expansion isn't a speed, it's a rate. So expansion cannot be faster (or slower) than the speed of light.guss said:This is a basic question. If the expansion of the universe's radius is faster than c, and that speed is increasing or staying constant, how would gravity ever slow the expansion down?
Well, if you fill space with a uniform distribution of normal matter, and see what happens given General Relativity (which does fully take into account the finite speed of gravity), you get a universe that necessarily slows down its expansion. If you add radiation, you get a universe whose expansion slows down even more rapidly. To get a universe that speeds up, you need some sort of exotic energy density filling space.guss said:Gravitational fields propagate at c, so why would anyone even wonder why it's not slowing down due to gravity (if they thinks gravity effects the "edge" of the universe)?
...which is what our universe is doing, so this is why there must be "dark" energy, correct?Chalnoth said:To get a universe that speeds up, you need some sort of exotic energy density filling space.
Correct. That or some form of modified gravity. But the theorists are having a very difficult time finding modified gravity theories that both explain the accelerated expansion and also don't clearly contradict solar system experiments.guss said:Thanks guys.
...which is what our universe is doing, so this is why there must be "dark" energy, correct?
Inflation is a theory in cosmology which describes the rapid expansion of the universe in the first few moments after the Big Bang. This expansion is often attributed to a repulsive force called "inflation field". Gravity, on the other hand, is a fundamental force that governs the motion of objects in the universe. In the context of inflation, gravity plays a crucial role in determining the rate of expansion of the universe.
Gravity has a slowing effect on the expansion of the universe during inflation. This is because gravity is an attractive force, and as the universe expands, the gravitational force between objects becomes weaker. This leads to a decrease in the rate of expansion.
No, gravity cannot completely stop the expansion of the universe during inflation. While gravity does have a slowing effect, there are other factors, such as the repulsive force of the inflation field, that contribute to the expansion. Therefore, the expansion of the universe cannot be completely halted by gravity alone.
The strength of gravity plays a significant role in determining the rate of inflation. In general, a stronger gravitational force will lead to a slower rate of inflation. This is because a stronger gravitational force will counteract the repulsive force of the inflation field, causing the expansion of the universe to slow down.
Yes, there are other factors that can slow down inflation besides gravity. These include the energy density of the universe and the properties of the inflation field itself. The combination of these factors, along with gravity, determines the overall rate of expansion during inflation.