A mass is loaded into a horizontal spring loaded launcher as shown in the below figure. The mass 1.63 kg is loaded by compressing a spring of strength 250 N/m a distance of 0.24 m. The spring is then released and launches the ball which collides elastically with another mass m2 = 3.83 kg hanging from a rigid massless rod which is free to swing. 1. Calculate the velocity of m, directly before colliding with m2. 2. Calculate the velocity of each mass after the collision 3. Calculate the maximum height reached by m2 after the collision mou 4. Calculate the compression distance of the spring after mi rebounds off of m2

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A mass is loaded into a horizontal spring loaded launcher as shown in the below figure. The mass 1.63 kg is loaded by compressing a spring of strength 250 N/m a distance of 0.24 m. The spring is then released and launches the ball which collides elastically with another mass m2 = hanging from a rigid massless rod which is free to swing. 3.83 kg 1. Calculate the velocity of mı directly before colliding with m2. 2. Calculate the velocity of each mass after the collision 3. Calculate the maximum height reached by m2 after the collision 4. Calculate the compression distance of the spring after m, rebounds off of m2