The two blocks are connected by a massless rope that passes through a pulley. Mass of first block is m1 = 1 kg, mass of the second block is m2= 5 kg. Mass of the pulley is M = 2 kg. Radius of the pulley is R= 10 cm. First block is placed on the 30 incline and the second block is hanging above the table at the height of 40 cm. Then, the system is released and the first block starts sliding up the incline and the second block starts falling toward the table. a) forces that apply to the pulley. b) pulley. Consider the pulley to be a disc and use disc's moment of inertia(/ = MR?/2) c) acceleration of the blocks. Draw the FBD for both blocks and draw separately the Write down equations of motion for the blocks and Using the equations from part (b) to calculate the Finally, find the velocity that the second block will d) acquire just before hitting the table using energy. m1 m2

The two blocks are connected by a massless rope that passes through a pulley. Mass of first block is m1 = 1 kg, mass of the second block is m2= 5 kg. Mass of the pulley is M = 2 kg. Radius of the pulley is R= 10 cm. First block is placed on the 30 incline and the second block is hanging above the table at the height of 40 cm. Then, the system is released and the first block starts sliding up the incline and the second block starts falling toward the table. a) forces that apply to the pulley. b) pulley. Consider the pulley to be a disc and use disc's moment of inertia(/ = MR?/2) c) acceleration of the blocks. Draw the FBD for both blocks and draw separately the Write down equations of motion for the blocks and Using the equations from part (b) to calculate the Finally, find the velocity that the second block will d) acquire just before hitting the table using energy. m1 m2

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

The two blocks are connected by a massless rope that passes
through a pulley. Mass of first block is m1 = 1 kg, mass of the second
block is m2= 5 kg. Mass of the pulley is M = 2 kg. Radius of the pulley
is R= 10 cm. First block is placed on the 30 incline and the second
block is hanging above the table at the height of 40 cm. Then, the
system is released and the first block starts sliding up the incline and
the second block starts falling toward the table.
a)
forces that apply to the pulley.
b)
pulley. Consider the pulley to be a disc and use disc's moment of
inertia(/ = MR?/2)
c)
acceleration of the blocks.
Draw the FBD for both blocks and draw separately the
Write down equations of motion for the blocks and
Using the equations from part (b) to calculate the
Finally, find the velocity that the second block will
d)
acquire just before hitting the table using energy.
m1
m2

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