Suppose a spaceship starts from rest from Space Station Alpha floating in deep space and accelerates at a constant rate of (relative to the station) for 1.0 Ms (≈ 12 days), decelerates for the same amount of time to arrive at rest at Space Station Beta (which floats at rest relative to Alpha), and then repeats the same acceleration and deceleration processes in the opposite direction to get back to space station Alpha. (a) Find the spaceship’s top speed. Is it small compared to the speed of light? (b) About how much less time has elapsed on the spaceship compared to clocks on Station Alpha? (Hint: Divide the trip into four pieces, and use the binomial approximation to convert the integral to two simpler integrals for each piece.
Suppose a spaceship starts from rest from Space Station Alpha floating in deep space and accelerates at a constant rate of (relative to the station) for 1.0 Ms (≈ 12 days), decelerates for the same amount of time to arrive at rest at Space Station Beta (which floats at rest relative to Alpha), and then repeats the same acceleration and deceleration processes in the opposite direction to get back to space station Alpha. (a) Find the spaceship’s top speed. Is it small compared to the speed of light? (b) About how much less time has elapsed on the spaceship compared to clocks on Station Alpha? (Hint: Divide the trip into four pieces, and use the binomial approximation to convert the integral to two simpler integrals for each piece.
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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Suppose a spaceship starts from rest from Space Station Alpha floating in deep space and accelerates at a constant rate of (relative to the station) for 1.0 Ms (≈ 12 days), decelerates for the same amount of time to arrive at rest at Space Station Beta (which floats at rest relative to Alpha), and then repeats the same acceleration and deceleration processes in the opposite direction to get back to space station Alpha.
(a) Find the spaceship’s top speed. Is it small compared to the speed of light?
(b) About how much less time has elapsed on the spaceship compared to clocks on Station Alpha? (Hint: Divide the trip into four pieces, and use the binomial approximation to convert the integral to two simpler integrals for each piece.
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