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Does time affect gravity?
Gravity is not just a force. This effect measures the amount of time that has elapsed between two events by observers at different distances from a gravitational mass. In other words, time runs slower wherever gravity is strongest, and this is because gravity curves space-time.
Does gravitational time dilation cause gravity?
Yes, time goes faster the farther away you are from the earth’s surface compared to the time on the surface of the earth. This effect is known as “gravitational time dilation”. Gravitational time dilation occurs because objects with a lot of mass create a strong gravitational field.
What does gravitational time dilation mean quizlet?
What do we mean by gravitational time dilation? It is the idea that time runs slower in places where gravity is stronger. Time runs slower on the Sun than on Earth, making lines in the solar spectrum have lower frequency and hence longer wavelength than normal.
Does time dilation affect aging?
Every object has its own frame of reference. So, time dilation only means that, for this case, the twin in space is aging slower according to the twin that is still on Earth. In other words, yes, time dilation does affect biological aging.
How does gravity affect time?
In other words, time runs slower wherever gravity is strongest, and this is because gravity curves space-time. Think of it this way — time follows a simple equation:
Can gravity affect time?
Gravity is currently understood to be curvature of spacetime, so mathematically it’s unambiguous why gravity should affect time.
How does gravity slow time?
Gravity really impedes the flow of time, which implies that the more massive the object, the slower time passes in its vicinity. That being said, the selection of light clocks to prove this seems convenient, given that the entire article talks about the slowing down of light.
What is gravitational time dilation?
Gravitational time dilation. Gravitational time dilation is a form of time dilation, an actual difference of elapsed time between two events as measured by observers situated at varying distances from a gravitating mass. The higher the gravitational potential (the farther the clock is from the source of gravitation), the faster time passes.