In the figure, block 2 of mass 1.80 kg oscillates on the end of a spring in SHM with a period of 24.00 ms. The position of the block is given by x= (1.10 cm) cos(wt + a/2). Block 1 of mass 3.60 kg slides toward block 2 with a velocity of magnitude 7.80 m/s, directed along the spring's length. The two blocks undergo a completely inelastic collision at time t = 6.00 ms. (The duration of the collision is much less than the period of motion.) What is the amplitude of the SHM åfter the collision?

Principles of Physics: A Calculus-Based Text
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Chapter12: Oscillatory Motion
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In the figure, block 2 of mass 1.80 kg oscillates on the end of a spring in SHM with a period of 24.00 ms. The position of the block is
given by x = (1.10 cm) cos(wt + a/2). Block 1 of mass 3.60 kg slides toward block 2 with a velocity of magnitude 7.80 m/s, directed
along the spring's length. The two blocks undergo a completely inelastic collision at time t = 6.00 ms. (The duration of the collision is
much less than the period of motion.) What is the amplitude of the SHM åfter the collision?
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Number
Transcribed Image Text:In the figure, block 2 of mass 1.80 kg oscillates on the end of a spring in SHM with a period of 24.00 ms. The position of the block is given by x = (1.10 cm) cos(wt + a/2). Block 1 of mass 3.60 kg slides toward block 2 with a velocity of magnitude 7.80 m/s, directed along the spring's length. The two blocks undergo a completely inelastic collision at time t = 6.00 ms. (The duration of the collision is much less than the period of motion.) What is the amplitude of the SHM åfter the collision? Units Number
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