How does special relativity affect the following general principles of physics you have learned so far? Explain your response: principle of relativity (laws of physics not dependent on inertial reference frame), conservation of energy and momentum, calculation of relative velocity, and principle of inertia (i.e. Newton's First Law). How does special relativity affect the application of general principles of physics? In particular, answer for: conservation of energy and momentum, and calculation of acceleration of a body under a force.

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Please answer following questions:
a. How does special relativity affect the following general principles of physics you have
learned so far? Explain your response: principle of relativity (laws of physics not
dependent on inertial reference frame), conservation of energy and momentum,
calculation of relative velocity, and principle of inertia (i.e. Newton's First Law).
b. How does special relativity affect the application of general principles of physics? In
particular, answer for: conservation of energy and momentum, and calculation of
acceleration of a body under a force.
Transcribed Image Text:Please answer following questions: a. How does special relativity affect the following general principles of physics you have learned so far? Explain your response: principle of relativity (laws of physics not dependent on inertial reference frame), conservation of energy and momentum, calculation of relative velocity, and principle of inertia (i.e. Newton's First Law). b. How does special relativity affect the application of general principles of physics? In particular, answer for: conservation of energy and momentum, and calculation of acceleration of a body under a force.
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