Two asteroids with the same mass are in the connecting line between Mars and Jupiter. Asteroid A, initially moves straight (positive x-axis) with velocity 40 m / s deflected 30 ° to the direction it was coming from, when hitting Asteroid A which was initially silent. After collision Asteroid B moves in 45 ° direction towards Asteroid A. (a) Find the velocity of each asteroid after the collision. (b) What percentage of energy was lost from Asteroid A during the collision?
Two asteroids with the same mass are in the connecting line between Mars and Jupiter. Asteroid A, initially moves straight (positive x-axis) with velocity 40 m / s deflected 30 ° to the direction it was coming from, when hitting Asteroid A which was initially silent. After collision Asteroid B moves in 45 ° direction towards Asteroid A. (a) Find the velocity of each asteroid after the collision. (b) What percentage of energy was lost from Asteroid A during the collision?
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter9: Linear Momentum And Collisions
Section: Chapter Questions
Problem 56P: Two asteroids collide and stick together. The first asteroid has mass of 15103kg and is initially...
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Two asteroids with the same mass are in the connecting line between Mars and
Jupiter. Asteroid A, initially moves straight (positive x-axis) with velocity
40 m / s deflected 30 ° to the direction it was coming from, when hitting Asteroid A
which was initially silent. After collision Asteroid B moves in 45 ° direction towards Asteroid A.
(a) Find the velocity of each asteroid after the collision.
(b) What percentage of energy was lost from Asteroid A during the collision?
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