A particle (M1 = 2.99 kg) moving at 30.1\deg. downward from the horizontal with v1 = 2.19 m/s hits a second particle (M2 = 4.99 kg), which is at rest. After the collision, the speed of M1 is reduced to 0.521 m/s, and it is moving to the left and downward at an angle of 32.1\deg with respect to the horizontal. You cannot assume that the collision is elastic. What is the speed of M2 after the collision? M₁ V₁ M2
A particle (M1 = 2.99 kg) moving at 30.1\deg. downward from the horizontal with v1 = 2.19 m/s hits a second particle (M2 = 4.99 kg), which is at rest. After the collision, the speed of M1 is reduced to 0.521 m/s, and it is moving to the left and downward at an angle of 32.1\deg with respect to the horizontal. You cannot assume that the collision is elastic. What is the speed of M2 after the collision? M₁ V₁ M2
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![A particle (M1 = 2.99 kg) moving at 30.1\deg.
downward from the horizontal with v1
= 2.19 m/s
hits a second particle (M2 = 4.99 kg), which is at
rest. After the collision, the speed of M1 is reduced
to 0.521 m/s, and it is moving to the left and
downward at an angle of 32.1\deg with respect to
the horizontal. You cannot assume that the collision
is elastic. What is the speed of M2 after the collision?
M₁
V₁
M2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F55c93c29-570c-47a0-9b23-ef19fb543d28%2F345933a8-d286-47c4-afb0-c2f3e98bb992%2Fiesc2i_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A particle (M1 = 2.99 kg) moving at 30.1\deg.
downward from the horizontal with v1
= 2.19 m/s
hits a second particle (M2 = 4.99 kg), which is at
rest. After the collision, the speed of M1 is reduced
to 0.521 m/s, and it is moving to the left and
downward at an angle of 32.1\deg with respect to
the horizontal. You cannot assume that the collision
is elastic. What is the speed of M2 after the collision?
M₁
V₁
M2
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