(e) When the electron is moving at 85 % of the speed of light, how many times greater is the relativistic momentum than the non-relativistic momentum? (f) Which of the following facts are true about the ratio of relativistic to non-relativistic momentum of an electron? It does not depend on the mass of the electron. It approaches infinity when the speed approaches the speed of light. It depends on the charge of the electron. The relativistic momentum and classical momentum of an electron are always about the same. It does not depend on the speed of the electron. (g) What is the ratio of the relativistic momentum to the classical momentum of a rocketship moving at 99 % of the speed of light, in kg ⋅ m/s?
(e) When the electron is moving at 85 % of the speed of light, how many times greater is the relativistic momentum than the non-relativistic momentum? (f) Which of the following facts are true about the ratio of relativistic to non-relativistic momentum of an electron? It does not depend on the mass of the electron. It approaches infinity when the speed approaches the speed of light. It depends on the charge of the electron. The relativistic momentum and classical momentum of an electron are always about the same. It does not depend on the speed of the electron. (g) What is the ratio of the relativistic momentum to the classical momentum of a rocketship moving at 99 % of the speed of light, in kg ⋅ m/s?
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter14: Special Theory Of Relativity
Section: Chapter Questions
Problem 14.39P
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In this problem we will observe how the momentum of an electron changes as its velocity approaches the
(e) When the electron is moving at 85 % of the speed of light, how many times greater is the relativistic momentum than the non-relativistic momentum?
(f) Which of the following facts are true about the ratio of relativistic to non-relativistic momentum of an electron?
It does not depend on the mass of the electron. |
It approaches infinity when the speed approaches the speed of light. |
It depends on the charge of the electron. |
The relativistic momentum and classical momentum of an electron are always about the same. |
It does not depend on the speed of the electron. |
(g) What is the ratio of the relativistic momentum to the classical momentum of a rocketship moving at 99 % of the speed of light, in kg ⋅ m/s?
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