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85. The Lorentz transformation for space is given by: A. x' = y(x-vt) B. x' = y(x + vt) C. t' = y(t-vx/c^2) D. t' = y(t + vx/c^2) 86. A 5 kg object is moving at 0.95c relative to an observer. What is the object's total energy? A. 2.57 x 10^18 J B. 5.13 x 10^18 J C. 7.70 x 10^18 J D. 1.02 X 10^19 J 87. The Lorentz transformation for time can also be expressed as: A. At' = y(At-vAx/c^2) B. At' = y(At+vAx/c^2) C. At' = y(Ax-vAt) D. At' = y(Ax + vat)

85. The Lorentz transformation for space is given by: A. x' = y(x-vt) B. x' = y(x + vt) C. t' = y(t-vx/c^2) D. t' = y(t + vx/c^2) 86. A 5 kg object is moving at 0.95c relative to an observer. What is the object's total energy? A. 2.57 x 10^18 J B. 5.13 x 10^18 J C. 7.70 x 10^18 J D. 1.02 X 10^19 J 87. The Lorentz transformation for time can also be expressed as: A. At' = y(At-vAx/c^2) B. At' = y(At+vAx/c^2) C. At' = y(Ax-vAt) D. At' = y(Ax + vat)

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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85. The Lorentz transformation for space is given by: A. x' = y(x - vt) B. x' = y(x + vt) C. t' = y(t - vx/c^2) D. t' = y(t + vx/c^2) 86. A 5 kg object is moving at 0.95c relative to an observer. What is the object's total energy? A. 2.57 x 10^18 J B. 5.13 x 10^18 J C. 7.70 x 10^18 J D. 1.02 x 10^19 J 87. The Lorentz transformation for time can also be expressed as: A. At' = y(At-vAx/c^2) B. At' = y(At+vAx/c^2) C. At' = y(Ax-vAt) D. At' = y(Ax+vAt)
Transcribed Image Text:85. The Lorentz transformation for space is given by: A. x' = y(x - vt) B. x' = y(x + vt) C. t' = y(t - vx/c^2) D. t' = y(t + vx/c^2) 86. A 5 kg object is moving at 0.95c relative to an observer. What is the object's total energy? A. 2.57 x 10^18 J B. 5.13 x 10^18 J C. 7.70 x 10^18 J D. 1.02 x 10^19 J 87. The Lorentz transformation for time can also be expressed as: A. At' = y(At-vAx/c^2) B. At' = y(At+vAx/c^2) C. At' = y(Ax-vAt) D. At' = y(Ax+vAt)
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