Using Newton's second law in its relativistic form and the kinematics equations of classical mechanics, calculate the speed that an electron would reach initially at rest, if a constant force of 1 Newton were applied to it for a time equal to 1 nanosecond. How does this speed compare to the speed of light in empty space?
Using Newton's second law in its relativistic form and the kinematics equations of classical mechanics, calculate the speed that an electron would reach initially at rest, if a constant force of 1 Newton were applied to it for a time equal to 1 nanosecond. How does this speed compare to the speed of light in empty space?
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Transcribed Image Text:Using Newton's second law in its relativistic form
and the kinematics equations of classical
mechanics, calculate the speed that an electron
would reach initially at rest, if a constant force of 1
Newton were applied to it for a time equal to 1
nanosecond. How does this speed compare to the
speed of light in empty space?
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