That would result in repulsive gravity. It was ever observed and I don't think GR allows it.Tominator said:This question seems trivial, but I couldn`t find an answer to it. I know that time slows down in strong gravitational field, but is there something even theoretically capable of accelerating time around it?
Well, If there are gravitational waves, one amplitude should be stronger and the other weaker, than normal gravity in that area, am I right? Because from what I know, all waves have minimum and maximum, or positive/negative amplitude.A.T. said:That would result in repulsive gravity. It was ever observed and I don't think GR allows it.
I have read somewhere, that dark matter is responsible for speeding up the expansion of our universe, isn`t that an example of repulsive gravity in nature?pervect said:It *probably* doesn't actually exist in nature, but there are some articles by Bondi in the literature about negative mass in GR. See https://www.physicsforums.com/showpost.php?p=1129928&postcount=7 for the reference to the Bondi article, and some discussion.
This would provide the required "repulsive gravity" needed to accelerate time.
Well, that is actually what normal gravity does. You just need a massive ship. If you are inside a big mass, the time runs faster further away from the mass than your local time.Tominator said:The Idea was to accelerate time around a moving ship and maintain the time flow inside,
Movement of what relative to what? An outside observer would actually see you slowed down in the above scenario. Being close to a big mass you can observe far away things moving faster than light according to your clock. The light speed limit applies only locally.Tominator said:which would result in a movement faster than a light in an outside observer`s frame of reference
That is an interesting question: could a G-wave make time run faster in a certain region than before the wave came? If yes, the effect of the minimum and maximum would cancel out, so it would be just a temporary state.Tominator said:Well, If there are gravitational waves, one amplitude should be stronger and the other weaker, than normal gravity in that area, am I right?
A.T. said:Well, that is actually what normal gravity does. You just need a massive ship. If you are inside a big mass, the time runs faster further away from the mass than your local time.
Movement of what relative to what? An outside observer would actually see you slowed down in the above scenario. Being close to a big mass you can observe far away things moving faster than light according to your clock. The light speed limit applies only locally.
A.T. said:That is an interesting question: could a G-wave make time run faster in a certain region than before the wave came? If yes, the effect of the minimum and maximum would cancel out, so it would be just a temporary state.
Tominator said:Let`s say, that you have a ship so massive that you experience only one second, while the outside observer one minute.
(...)
On the contrary, if you were able to accelerate time around your ship and mantain the "normal" time flow inside.
A.T. said:This is not contrary but the same scenario: time inside the ship runs slower than around it. There is no absolute "normal time flow". Gravitational time dilation is a relative factor of clock rates between two points in space.
yes, but if you want to get from one point to another not moving wil not help you.Naty1 said:and note that as you move from little velocity to c, which is the edge of the lightcone "future" diagonal in the diagram slows...so you can "speed up time" in everyday life by minimizing your local speed.
No, time is a constant and cannot be accelerated or slowed down. It always moves at the same rate.
The concept of time travel is still a topic of debate among scientists. The laws of physics suggest that it may be possible to travel forward in time, but traveling back in time is currently considered impossible.
No, technology cannot change the speed of time. It can only change our perception of time or how we measure it, but the actual rate of time remains constant.
While we cannot actually slow down time, certain activities or experiences can make time feel like it is passing more slowly. This is due to our perception of time being influenced by the level of engagement and novelty in our surroundings.
According to Einstein's theory of relativity, gravity can warp the fabric of space-time and cause time to move at different rates. This is known as gravitational time dilation, where time moves slower in areas with stronger gravitational forces.