What is the time taken for the ball bearing to fall according to the passenger? To determine the time measured by the passenger, we can use the concept of time dilation in special relativity. Given that the Gautrain is traveling at 0.5 c (half the speed of light), we can calculate the time dilation factor using the Lorentz factor: γ = 1 / √(1 - v^2/c^2), where v is the speed of the Gautrain and c is the speed of light. Once we have the time dilation factor, we can multiply it by the time it would take for the ball bearing to fall in the stationary frame (which is approximately 1.46 seconds) to obtain the time measured by the passenger, which is approximately 3.17 seconds.

Question

What is the time taken for the ball bearing to fall according to the passenger?     To determine the time measured by the passenger, we can use the concept of time dilation in special relativity. Given that the Gautrain is traveling at 0.5 c (half the speed of light), we can calculate the time dilation factor using the Lorentz factor: γ = 1 / √(1 - v^2/c^2), where v is the speed of the Gautrain and c is the speed of light. Once we have the time dilation factor, we can multiply it by the time it would take for the ball bearing to fall in the stationary frame (which is approximately 1.46 seconds) to obtain the time measured by the passenger, which is approximately 3.17 seconds.

Stephany · Answer

Answer:     The time taken for the ball bearing to fall according to the passenger is approximately 3.17 seconds.

How to Calculate Time Dilation in Special Relativity

What is the time taken for the ball bearing to fall according to the passenger?

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