Answer to Question #163133 in Astronomy | Astrophysics for Hussain Ahmed

Question #163133

The star of a distant solar system explodes as a supernova. At the moment of the explosion, an resting exploration spaceship is 15 AU away from the shock wave. The shock wave of the explosion travels with 25000 km/s towards the spaceship. To save the crew, the spacecraft makes use of a special booster that uniformly accelerates at 150 m/s2 in the opposite direction. Determine if the crew manages to escape from the shock wave. (Neglect relativistic effects.)


1
Expert's answer
2021-03-12T09:32:55-0500

Let's consider the situation from the frame of reference of the wave. In this frame it does not move and the ship approaches it with the speed of "v = -25000km\/s = -2.5\\times 10^7m\/s". In order to be in safety, it should achieve a zero speed in this frame. This will happen in time:


"t = \\dfrac{0-v}{a} = \\dfrac{-v}{a}"

where "a = 150m\/s^2" is the acceleration of the ship. In this time the ship covers the following distance (toward the wave):


"d = vt + \\dfrac{at^2}{2} = -\\dfrac{v^2}{a}+\\dfrac{v^2}{2a} = -\\dfrac{v^2}{2a}\\\\\nd = -\\dfrac{(2.5\\times 10^7)^2}{2\\times150}\\approx 2.1\\times 10^{12}m"

Since 15 AU is approximately "2.2\\times 10^{12}m" the crew does not manage to escape from the shock wave.


Answer. does not manage.


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Comments

Synyster
11.03.21, 18:00

Wrong, There will be "2a" but you calculated as only "1a" in the last line.

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