A block of mass m slides along a frictionless track with speed vm. It collides with a stationary block of mass M. Find an expression (in some or all of the terms R, g, m and M) for the for the minimum value of vm that will allow the second block to make it around the full loop without falling off if the collision is a) Perfectly inelastic b) Perfectly elastic c) If the velocity vm was halved from the perfectly inelastic collision situation, determine an expression for how far up the loop the mass M would make it around the loop. Draw a new energy diagram for this situation. d) Imagine if block M was launched by horizontal spring at the bottom of the loop, instead of through a collision, with spring constant k. Find an expression for the distance the spring would need to be compressed so that it would make it around the loop without falling off. R m mM

A block of mass m slides along a frictionless track with speed vm. It collides with a stationary block of mass M. Find an expression (in some or all of the terms R, g, m and M) for the for the minimum value of vm that will allow the second block to make it around the full loop without falling off if the collision is a) Perfectly inelastic b) Perfectly elastic c) If the velocity vm was halved from the perfectly inelastic collision situation, determine an expression for how far up the loop the mass M would make it around the loop. Draw a new energy diagram for this situation. d) Imagine if block M was launched by horizontal spring at the bottom of the loop, instead of through a collision, with spring constant k. Find an expression for the distance the spring would need to be compressed so that it would make it around the loop without falling off. R m mM

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Description: Please help me with this question and show all steps. Please identify the relevant physical principles and summarize them in words.Also, can you draw an energy diagram for the object(s) in motion while moving in the loop? Include total energy, potent

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 19P: A skater of mass 40 kg is carrying a box of mass 5 kg. The skater has a speed of 5 m/s with respect...

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