2. A point particle of mass m-0.250kg moves to the right with a speed v -20.0m/s. The particle strikes and sticks to the end of a stationary hanging rod of mass M-1.00 kg and, length L = 1.00m, pivoted about a frictionless axis through a point 10.0 cm below the top end as shown. The rod hangs and the system is free to rotate up around the fixed axis. Ignore air resistance. a. Draw a detailed large diagram defining and labeling dimensions & distances you use. b. Find the angular speed of the system after the collision. c. The system rotates about the fixed axis. Find the velocity of the end of the rod where the particle is first stuck.

2. A point particle of mass m-0.250kg moves to the right with a speed v -20.0m/s. The particle strikes and sticks to the end of a stationary hanging rod of mass M-1.00 kg and, length L = 1.00m, pivoted about a frictionless axis through a point 10.0 cm below the top end as shown. The rod hangs and the system is free to rotate up around the fixed axis. Ignore air resistance. a. Draw a detailed large diagram defining and labeling dimensions & distances you use. b. Find the angular speed of the system after the collision. c. The system rotates about the fixed axis. Find the velocity of the end of the rod where the particle is first stuck.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

I need help with all parts of this problem. Thank you

2. A point particle of mass m= 0.250kg moves to the right with a speed v, =20.0m/s. The
particle strikes and sticks to the end of a stationary hanging rod of mass M =1.00 kg and,
length L = 1.00m, pivoted about a frictionless axis through a point 10.0 cm below the top
end as shown. The rod hangs and the system is free to rotate up around the fixed axis.
Ignore air resistance.
a. Draw a detailed large diagram defining and labeling dimensions & distances you use.
b. Find the angular speed of the system after the collision.
c. The system rotates about the fixed axis. Find the velocity of the end of the rod where the
particle is first stuck.
d. How high up does the rod go? Draw a schematic showing before and after to show how
you are solving the problem. Describe the motion.

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