Consider an event with space-time coordinates (t=2.00s,x=2.50 x 108m)in an inertial frame of reference S. Let...
Consider an event with space-time coordinates (t=2.00s,x=2.50 x 108m)in an inertial frame of reference S. Let S' be a second inertial frame of reference moving, in the positive x direction, with speed 2.70 x 108m/s relative to frame S. Find the value of gamma that will be needed to transform coordinates between frames S and S'. Use c=3 x 108m/s for the speed of light in vacuum. Suppose that S and S' share the same origin; that is, at t = t' = 0, x = x' = 0. Using y (GAMMA FOUND WAS = 2.29), find x', the x coordinate of the event in frame S'. x' found was -6.65 x 108 m.
NOW, find t', the t coordinate of the event in frame
S'.
t' = _________________s
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Consider an event with space-time coordinates (t=2.00s,x=2.50 x
108m)in an inertial frame of reference S. Let...
Consider an event with space-time coordinates (t=2.00s,x=2.50�108m)in an inertial frame of reference S. Let S' be a se...
Consider an event with space-time coordinates (t=2.00s,x=2.50�108m)in an inertial frame of reference S. Let S' be a second inertial frame of reference moving, in the positive x direction, with speed 2.70�108m/s relative to frame S. Find the value of gamma that will be needed to transform coordinates between frames S and S'. Use c=3�108m/s for the speed of light in vacuum. Suppose that S and S' share the same origin; that is, at t = t' = 0, x =...
9 An inertial frame of reference S' moving to the left with speed 25 ms' moves...
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Suppose that, at t = 4.00 x 10-4s, the space coordinates of a particle are x...
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Please help me understand this problem An observer in an inertial reference frame S sees lightning...
Please help me understand this problem
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9 An inertial frame of reference S' moving to the left with speed 25 ms' moves past another inertial frame S. At time zero the origins of the two frames coincide. a A phone rings at location x=24 m and 1=5.0s. Determine the location of this event in the frame S. b A ball is measured to have velocity -15 ms' in frame S. Calculate the velocity of the ball in frame S.
Suppose that, at t = 4.00 x 10-4s, the space coordinates of a particle are x = 105 m, y = 35.0 m, and z = 40.0 m according to coordinate system S. If reference frame S' moves at speed 1.48 x 10 m/s in the +x-direction relative to frame S, compute the corresponding coordinate values as measured in frame S'. The reference frames start together, with their origins coincident at t = 0. x = m y = m...
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Please help me understand this problem
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