(d)lision, i.e., they stick together! What is the angular velocity of the rod immediatelySuppose that the block and the rod undergo a perfectly inelastic col-after the collision?(e)is perfectly inelastic, as in Part (d), to what height will the bottom of the rod risebefore coming to rest?Assuming the collision between the block and the rod The figure below shows a small block of mass m =4.50 kg sliding without9.50 m/s. It undergoes a perfectly elastic collision with18.0 kg. The rod4.friction with a speed of vothe bottom of a uniform rod of length d :is pivoted about a frictionless axle through its center, and initially hangs straight downand is not moving.3.00 m and mass MmVo2013 Penon Baion, eDetermine the velocity (both speed and direction) of the block after(a)the collision? [Hint: Recall, an elastic collision is one in which the kinetic energyis conserved.]

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Description: (d)lision, i.e., they stick together! What is the angular velocity of the rod immediatelySuppose that the block and the rod undergo a perfectly inelastic col-after the collision?(e)is perfectly inelastic, as in Part (d), to what height will the bott

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4. The figure below shows a small block of mass m = 4.50 kg sliding without friction with a speed of vo = 9.50 m/s. It undergoes a perfectly elastic collision with the bottom of a uniform rod of length d = 3.00 m and mass M = 18.0 kg. The rod is pivoted about a frictionless axle through its center, and initially hangs straight down and is not moving.

4. The figure below shows a small block of mass m = 4.50 kg sliding without friction with a speed of vo = 9.50 m/s. It undergoes a perfectly elastic collision with the bottom of a uniform rod of length d = 3.00 m and mass M = 18.0 kg. The rod is pivoted about a frictionless axle through its center, and initially hangs straight down and is not moving.

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter12: Static Equilibrium And Elasticity

Section: Chapter Questions

Problem 37P: To get up on the roof, a person (mass 70.0 kg) places 6.00-m aluminum ladder (mass 10.0 kg) against...

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