Two asteroids of equal mass (500 kg) in the asteroid belt between Mars and Jupiter collide with a glancing blow. Asteroid A, which was initially traveling at 40.0 m/s, is deflected 30.0° from its original direction, while asteroid B, which was initially at rest, travels at 45.0° to the original direction of A. A Find the speed of each asteroid after the collision. B How much kinetic energy does asteroid A lose in the collision?
Two asteroids of equal mass (500 kg) in the asteroid belt between Mars and Jupiter collide with a glancing blow. Asteroid A, which was initially traveling at 40.0 m/s, is deflected 30.0° from its original direction, while asteroid B, which was initially at rest, travels at 45.0° to the original direction of A. A Find the speed of each asteroid after the collision. B How much kinetic energy does asteroid A lose in the collision?
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![Two asteroids of equal mass (500 kg) in the asteroid belt between Mars and Jupiter collide with a
glancing blow. Asteroid A, which was initially traveling at 40.0 m/s, is deflected 30.0° from its original
direction, while asteroid B, which was initially at rest, travels at 45.0° to the original direction of A.
A Find the speed of each asteroid after the collision.
B How much kinetic energy does asteroid A lose in the collision?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F945f60e8-e94b-4553-816e-fb5a9246ea1c%2F3777cb04-6452-4528-bf37-f50b90bf3e13%2Flwr467v_processed.png&w=3840&q=75)
Transcribed Image Text:Two asteroids of equal mass (500 kg) in the asteroid belt between Mars and Jupiter collide with a
glancing blow. Asteroid A, which was initially traveling at 40.0 m/s, is deflected 30.0° from its original
direction, while asteroid B, which was initially at rest, travels at 45.0° to the original direction of A.
A Find the speed of each asteroid after the collision.
B How much kinetic energy does asteroid A lose in the collision?
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Step 1: Here given information is summarized and momentum conservation is explained
VIEWStep 2: Here required equations are set up
VIEWStep 3: Here velocity after collision is determined
VIEWStep 4: Here lost KE is identified in percentage
VIEWStep 5: Here lost KE is calculated in percentage
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