1. In the system shown in the figure, m₁ = 18.3 kg, m₂ = 38.2 kg, a = 48.2°, and the coefficient of kinetic friction between the block with mass m₁ and the inclined surface is k. What coefficient of friction is needed for the hanging block to drop 9.45 m in the first 2.50 s after the system is released from rest? (Hint: it is accelerating downward, so don't treat it like it is moving at a constant speed.) m₁ α m2
1. In the system shown in the figure, m₁ = 18.3 kg, m₂ = 38.2 kg, a = 48.2°, and the coefficient of kinetic friction between the block with mass m₁ and the inclined surface is k. What coefficient of friction is needed for the hanging block to drop 9.45 m in the first 2.50 s after the system is released from rest? (Hint: it is accelerating downward, so don't treat it like it is moving at a constant speed.) m₁ α m2
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![1. In the system shown in the figure, m₁ = 18.3 kg, m₂ = 38.2 kg,
a = 48.2°, and the coefficient of kinetic friction between the
block with mass m₁ and the inclined surface is uk. What
coefficient of friction is needed for the hanging block to
drop 9.45 m in the first 2.50 s after the system is released
from rest? (Hint: it is accelerating downward, so don't treat it
like it is moving at a constant speed.)
m₁
α
m₂](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F278fbf48-8175-4c44-ac0e-2265809c567f%2Fd99424a1-5d7a-46f9-a04b-c4c369d33fc5%2F5fe7quh_processed.png&w=3840&q=75)
Transcribed Image Text:1. In the system shown in the figure, m₁ = 18.3 kg, m₂ = 38.2 kg,
a = 48.2°, and the coefficient of kinetic friction between the
block with mass m₁ and the inclined surface is uk. What
coefficient of friction is needed for the hanging block to
drop 9.45 m in the first 2.50 s after the system is released
from rest? (Hint: it is accelerating downward, so don't treat it
like it is moving at a constant speed.)
m₁
α
m₂
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