Skipping with my husband. Two boxes of masses m₁ = 34.0 [g] and m₂ = 4m₁ are connected by a taut, massless rope, as shown in the figure. Box m₁ is at rest initially at the bottom of a frictionless plane inclined at an angle = 34.0°, while box m₂ is freely-hanging. The rope does not slip as it passes through a pulley of radius R = 4.50 [cm]. If m₂ falls down a height h = 37.0 [cm] with speed v = 0.280 [m/s], what is the angular acceleration of the pulley? BEFORE M AFTER M m1 IT h ↓ m1 8 m₂ m2
Skipping with my husband. Two boxes of masses m₁ = 34.0 [g] and m₂ = 4m₁ are connected by a taut, massless rope, as shown in the figure. Box m₁ is at rest initially at the bottom of a frictionless plane inclined at an angle = 34.0°, while box m₂ is freely-hanging. The rope does not slip as it passes through a pulley of radius R = 4.50 [cm]. If m₂ falls down a height h = 37.0 [cm] with speed v = 0.280 [m/s], what is the angular acceleration of the pulley? BEFORE M AFTER M m1 IT h ↓ m1 8 m₂ m2
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unit: rad/s^2 | opt: a. 7.93 b. 2.35 c. 0.118 d. 7.22
![Skipping with my husband. Two boxes of masses m₁ = 34.0 [g] and m₂ = 4m₁ are connected by a taut,
massless rope, as shown in the figure. Box m₁ is at rest initially at the bottom of a frictionless plane inclined at
an angle = 34.0°, while box m₂ is freely-hanging. The rope does not slip as it passes through a pulley of radius
R = 4.50 [cm]. If m₂ falls down a height h = 37.0 [cm] with speed v = 0.280 [m/s], what is the angular
acceleration of the pulley?
BEFORE
M
AFTER
M
m₁
0
m₁
0
m₂
m2
T
h
↓](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9a0f46c3-a906-48e6-aa36-c841026d09c8%2Ff9b11e8d-1929-4735-9b66-d3a70fa47cd4%2Flmmvpjo_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Skipping with my husband. Two boxes of masses m₁ = 34.0 [g] and m₂ = 4m₁ are connected by a taut,
massless rope, as shown in the figure. Box m₁ is at rest initially at the bottom of a frictionless plane inclined at
an angle = 34.0°, while box m₂ is freely-hanging. The rope does not slip as it passes through a pulley of radius
R = 4.50 [cm]. If m₂ falls down a height h = 37.0 [cm] with speed v = 0.280 [m/s], what is the angular
acceleration of the pulley?
BEFORE
M
AFTER
M
m₁
0
m₁
0
m₂
m2
T
h
↓
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