what are the impacts of relativistic gravity on falling object on ligh?
R. Hagedorn has written: 'Relativistic kinematics' -- subject(s): Relativistic kinematics
There is no minimum speed for relativistic effects. Your car is a time machine. Your subjective elapsed time is shorter in a drive across town than it would have been if you had stayed home. The catch is that at driving speed, the effect is very small; your moving clock would read slower by a couple of trillionths of a second, perhaps. In order to get any other answer to your question, you need to specify the degree of relativistic effect you have in mind.
David Agmon has written: 'Classical and relativistic mechanics' -- subject(s): Mechanics, Relativistic mechanics
If the distance of travel remains constant in every case, then the time required to cover the distance is inversely proportional to the speed of the particle. T = (constant) divided by (speed) or: (Time) x (Speed) = A constant, if the distance under consideration doesn't change. Note: This expression is a good approximation at everyday speeds. It becomes less accurate at speeds where relativistic effects become significant.
No
Rate = Distance/Time
More than 24. You will need to travel too fast for relativistic time dilation to work!
1
Pluralism or Constructivism
Time was 'invented' billions of years before Einstein. He recognized that time and velocity were related and that the speed of light was the factor that joined them. You will find more information if you google "relativistic speed".
No he did not. He just discovered that there were certain relativistic conditions under which two observers would measure the time difference between the same two events differently.