Two particles undergo an inelastic collision whose final kinetic energyrepresents 31% of the initial kinetic energy. Before the collision, particle 1 of massmi = 0.5 kg moves at 5 m/s towards the east and particle 2 of mass m2 = 1 kg moves at4 m/s at 30 ° south of west. After the collision, the velocity vector of particle 1 isoriented to the north.We will use the following notation: u1 the velocity vector of particle 1 before the collision,u2 the speed vector of particle 2 before the collision, v 1 the speed vector of the particle1 after the collision and v 2 the velocity vector of particle 2 after the collision.a) Determine the components of the velocity vector of particle 2 before the collision.b) Determine the modulus of the velocity vector of particle 1 after the collision.c) Determine the modulus and orientation of the velocity vector of particle 2 after thecollision.

Given Data: The mass of particle 1 is m1=0.5 kg. The mass of particle 2 is m2= 1 kg. The initial…

Answered: Two particles undergo an inelastic…

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