Part A The mechanism shown in the figure used to Torste of supplies from a ship's hold. The crate ha totalmas 43 kg A ro

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Part A The Mechanism Shown In The Figure Used To Torste Of Supplies From A Ship S Hold The Crate Ha Totalmas 43 Kg A Ro 1 (20.55 KiB) Viewed 69 times

Part A The Mechanism Shown In The Figure Used To Torste Of Supplies From A Ship S Hold The Crate Ha Totalmas 43 Kg A Ro 2 (21.35 KiB) Viewed 69 times

Part A The Mechanism Shown In The Figure Used To Torste Of Supplies From A Ship S Hold The Crate Ha Totalmas 43 Kg A Ro 3 (21.35 KiB) Viewed 69 times

Part A The Mechanism Shown In The Figure Used To Torste Of Supplies From A Ship S Hold The Crate Ha Totalmas 43 Kg A Ro 4 (37.28 KiB) Viewed 69 times

Part A The Mechanism Shown In The Figure Used To Torste Of Supplies From A Ship S Hold The Crate Ha Totalmas 43 Kg A Ro 5 (37.28 KiB) Viewed 69 times

Part A The Mechanism Shown In The Figure Used To Torste Of Supplies From A Ship S Hold The Crate Ha Totalmas 43 Kg A Ro 6 (19.88 KiB) Viewed 69 times

The mechanism shown in the figure (Eigure 1)is used toraise a crate of supplies from a ship's hold. The crate hastotal mass 43 kg . A rope is wrapped around a woodencylinder that turns on a metal axle. The cylinder has radius0.26 m and a moment of inertia I = 3.0 kg - m? about theaxle. The crate is suspended from the free end of the rope.One end of the axle pivots on frictionless bearings; a crankhandle is attached to the other end. When the crank isturned, the end of the handle rotates about the axle in avertical circle of radius 0.12 m, the cylinder turns, and thecrate is raised.What magnitude of the force P applied tangentially to the rotating crank is required to raise the crate with an acceleration of 1.40 m/s^2(You can ignore the mass of the rope as well as the moments of inertia of the axle and the crank.)Express your answer using two significant figures
The mechanism shown in the figure (Eigure 1)is used to
raise a crate of supplies from a ship's hold. The crate has
total mass 43 kg . A rope is wrapped around a wooden
cylinder that turns on a metal axle. The cylinder has radius
0.26 m and a moment of inertia I = 3.0 kg - m? about the
axle. The crate is suspended from the free end of the rope.
One end of the axle pivots on frictionless bearings; a crank
handle is attached to the other end. When the crank is
turned, the end of the handle rotates about the axle in a
vertical circle of radius 0.12 m, the cylinder turns, and the
crate is raised.
What magnitude of the force P applied tangentially to the rotating crank is required to raise the crate with an acceleration of 1.40 m/s^2(You can ignore the mass of the rope as well as the moments of inertia of the axle and the crank.)Express your answer using two significant figures
What magnitude of the force P applied tangentially to the rotating crank is required to raise the crate with an acceleration of 1.40 m/s^2
(You can ignore the mass of the rope as well as the moments of inertia of the axle and the crank.)
Express your answer using two significant figures
Part A The mechanism shown in the figure used to Torste of supplies from a ship's hold. The crate ha totalmas 43 kg A rope is wrapped around a wooden cylinder that is on a metade The cylinder has radius 0.26 m and a moment of inti = 30 ks about the The Gratis suspended from the free end of the rope One end of the pivots on frictions bearings a crank hand is ached to the other and when the cas turned the end of the handle rotales bout the axina verticale of radius 0.12 in the cinders and the crates What magnitude of the applied tangentially lo me rotating crank is required to the catwom/ 2 2. You can nor the mass of the was the moments of the and the con Express your answer using two significant figures 30 ANO BI? F IN Submit Preis Amet Figure X Incorrect; Try Again: 4 attempts remaining 30.12 m Paide de
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The mechanism shown in the figure (Eigure 1)is used to raise a crate of supplies from a ship's hold. The crate has total mass 43 kg. A rope is wrapped around a wooden cylinder that turns on a metal axle. The cylinder has radius 0.26 m and a moment of inertia I = 3.0 kg · about the axle. The crate is suspended from the free end of the rope. One end of the axle pivots on frictionless bearings, a crank handle is attached to the other end. When the crank is turned, the end of the handle rotates about the axle in a vertical circle of radius 0.12 m, the cylinder turns, and the crate is raised Figure < 1 of 1 10.12 m PI
What magnitude of the force F applied tangentially to the rotating crank is required to raise the crate with an acceleration of 1.40 m/s? ? (You can ignore the mass of the rope as well as the moments of inertia of the axle and the crank.) Express your answer using two significant figures. 190 Axo ? F= 1200 IN Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts remaining