There are two particles (1 and 2) that are moving around in space. The mass of particle 1 is 4.7 kg and the mass of particle 2 is 7.05 kg. The particles are isolated so that only the forces between the particles are significant. The force that 2 exerts on 1 is given by: F21(t) = Fat3i + Fbt2 j Fa = 23.6 N/s3 Fb = -10.4 N/s2 If the y component of the impulse from 1 on 2 is 1021 N s, what is the y component of the average force from 2 on 1 If the y component of the impulse from 1 on 2 is 1021 N s, what is the y component of the change in momentum for particle 2? Remember that the mass of particle 1 is 4.7 kg and that the mass of particle 2 is 7.05 kg. If both particles were at rest at the initial time, which particle will have the larger speed at the end of the time interval?

There are two particles (1 and 2) that are moving around in space. The mass of particle 1 is 4.7 kg and the mass of particle 2 is 7.05 kg. The particles are isolated so that only the forces between the particles are significant. The force that 2 exerts on 1 is given by: F21(t) = Fat3i + Fbt2 j Fa = 23.6 N/s3 Fb = -10.4 N/s2 If the y component of the impulse from 1 on 2 is 1021 N s, what is the y component of the average force from 2 on 1 If the y component of the impulse from 1 on 2 is 1021 N s, what is the y component of the change in momentum for particle 2? Remember that the mass of particle 1 is 4.7 kg and that the mass of particle 2 is 7.05 kg. If both particles were at rest at the initial time, which particle will have the larger speed at the end of the time interval?

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter11: Gravity, Planetary Orbits, And The Hydrogen Atom

Section: Chapter Questions

Problem 57P

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