Question

please help asap

As shown in the figure below, a bullets fired at and passes through a piece of target paper suspended by a massless string. The bullet has a mass m, speed before the collision with the target, and a speed (0.466) after passing through the target. Aber The collision is inelastic and during the collision, the amount of energy lost is equal to a fraction ((0.343)KE. c) of the kinetic energy of the bullet before the collision Determine the mass M of the target and the speed of the target the instant after the collision in terms of the mass of the bullet and speed of the bullet before the collision (Express your answers to at least 3 decimals.) V- ME

im confused on how to find the solution. could someone show the work along with the solution?

Answer 1

with M. wooden block of Mamm. Son bull v collide with a of man m Velocity m Vw € (0.466V) Initial momentum. Pi= mu+MO Pi=mo the speed of wo Oden blocks and After the collision, the speed of bullets are Vw and 0.466 o respectively, Final linear momentum. mx 0.4660 + M Vw -6. As Linar momentum in conserved Pf=P; PR MVw = 0.534 mv- Pf Imu Sinu collision is inclastic, the fraction of energy loss in K = 0. 343 x 2 m V² - 6 By conservation of energy. I m Vw m Vw tt mx 0.466²02 +0.343x tmuz In Vask = 0.43964x4 mu? muw = 0.49848 mv 2 0.439 84 Xm v2x M = 0·5342m2u2 M=0-6483m 2 2 2 Z

From equation ③ Vw= 00534 v 0-6483 O • B23V Velocity Vw = 0-823 v Man m = 0.6483m