Part 1: Impossible Statements Which of the following statements are IMPOSSIBLE? Choose all that are. The rocket's speed was measured to be 1.54c. The rocket's rest length is 686 m. An observer flying by measured the rocket to be 1079 m long. A rocket flying by the Sun at 0.64c measured the speed of the photons (particles of light) emitted by the Sun to be 0.8c. An inertial reference frame had an acceleration of 4 m/s². The proper time interval between two events was measured toge 286 s. The time interval between the same two events (as measured by an observer not in the proper frame) was 322 s. Part 2: True Statements Which of the following statements are TRUE? Choose all that are. The Lorentz factor, y, has a range that extends from zero to infinity. The range for the velocity of an object extends from 0 m/s to c The elapsed time between two events (as seen in any frame) can never be greater than the proper time for those two events An object's length (as seen in any IRF) can never be less than the object's rest length. The speed of a photon in a vacuum (as seen in any IRF) has a range that extends from 0 m/s to c X x
Part 1: Impossible Statements Which of the following statements are IMPOSSIBLE? Choose all that are. The rocket's speed was measured to be 1.54c. The rocket's rest length is 686 m. An observer flying by measured the rocket to be 1079 m long. A rocket flying by the Sun at 0.64c measured the speed of the photons (particles of light) emitted by the Sun to be 0.8c. An inertial reference frame had an acceleration of 4 m/s². The proper time interval between two events was measured toge 286 s. The time interval between the same two events (as measured by an observer not in the proper frame) was 322 s. Part 2: True Statements Which of the following statements are TRUE? Choose all that are. The Lorentz factor, y, has a range that extends from zero to infinity. The range for the velocity of an object extends from 0 m/s to c The elapsed time between two events (as seen in any frame) can never be greater than the proper time for those two events An object's length (as seen in any IRF) can never be less than the object's rest length. The speed of a photon in a vacuum (as seen in any IRF) has a range that extends from 0 m/s to c X x
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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Transcribed Image Text:Part 1: Impossible Statements
Which of the following statements are IMPOSSIBLE? Choose all that are.
The rocket's speed was measured to be 1.54c.
The rocket's rest length is 686 m. An observer flying by measured the rocket to be 1079 m long.
A rocket flying by the Sun at 0.64c measured the speed of the photons (particles of light) emitted by the Sun to be 0.8c.
An inertial reference frame had an acceleration of 4 m/s².
The proper time interval between two events was measured toge 286 s. The time interval between the same two events (as measured by an observer not in the proper frame) was 322 s.
Part 2: True Statements
Which of the following statements are TRUE? Choose all that are.
The Lorentz factor, y, has a range that extends from zero to infinity.
The range for the velocity of an object extends from 0 m/s to c
The elapsed time between two events (as seen in any frame) can never be greater than the proper time for those two events
An object's length (as seen in any IRF) can never be less than the object's rest length.
The speed of a photon in a vacuum (as seen in any IRF) has a range that extends from 0 m/s to c
X
x
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