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Problem 3: The length of the rope which pass.over the pulley is constant, From the figare...
The fiqure shows a man sitting in a bosun's chair that dangles from a massless rope, which runs over a massless, fr...
The fiqure shows a man sitting in a bosun's chair that dangles from a massless rope, which runs over a massless, frictionless pulley and back down to the man's hand. The combined mass of man and chair is 78.4 kg. With what force magnitude must the man pull on the rope if he is to rise (a) with a constant velocity and (b) with an upward acceleration of 1.42 m/s2? (Hint: A free-body diagram can really help.) Problem continues below...
a) what was the acceleration of the block down the ramp before the rope is pulled?...
a) what was the acceleration of the block down the ramp before
the rope is pulled?
b) what was the acceleration of the block down the ramp after
the rope is pulled?
A4 kg block is released from rest at the top of a frictionless plane of length 9m that is inclined at an angle of 21 degrees to the horizontal Acord is attached to the block and trails along behind it. When the block reaches a point 3 m...
The figure shows a man sitting in a bosun's chair that dangles from a massless rope,...
The figure shows a man sitting in a bosun's chair that dangles
from a massless rope, which runs over a massless, frictionless
pulley and back down to the man's hand. The combined mass of man
and chair is 83.1 kg. With what force magnitude must the man pull
on the rope if he is to rise (a) with a constant
velocity and (b) with an upward acceleration of
1.27 m/s2? (Hint: A free-body diagram can really help.) Problem
continues below....
The figure shows a man sitting in a bosun's chair that dangles from a massless rope,...
The figure shows a man sitting in a bosun's chair that dangles from a massless rope, which runs over a massless, frictionless pulley and back down to the man's hand. The combined mass of man and chair is 66.7 kg. With what force magnitude must the man pull on the rope if he is to rise (a) with a constant velocity and (b) with an upward acceleration of 1.34 m/s2? (Hint: A free-body diagram can really help.) Problem continues below....
. (a) Determine the velocity of block A if end B of the rope is pulled...
. (a) Determine the velocity of block A if end B of the rope is pulled down with a speed of 1.5 m/s 1.5 m/s B (b) Determine the speed and acceleration of block A if end F rope is pulled with a speed of 3 m/s and acceleration of a = 0.5 m/s2 Determine distance risen by A in 4 seconds. F Dy 3 m/s
Problem (3) A motor M and a frictionless pulley-cable system are used to lift the 850...
Problem (3) A motor M and a frictionless pulley-cable system are used to lift the 850 lb crate shown at a constant acceleration. The motor has an efficiency of E = 0.6 and the input power to it is 92 hp at the instant when the load has been hoisted s = 15 ft starting from rest. Determine the tension force in the cable. Neglect the mass of the pulleys and cable.
Please show work! A pulley of negligible mass is attached to a block weighing 504 N. A person uses the rope and pulley s...
Please show work!
A pulley of negligible mass is attached to a block weighing 504
N. A person uses the rope and pulley system illustrated in the
figure to lift the block at a constant velocity. The pulleys and
rope are all ideal.
F_G=____________ ?
A. Draw the free body diagram for the block. (Observe that three
are two rope segments pulling on the block.)
B. Apply Newton's first law and determine the tension in the
rope, and thus, the...
The cable C of the pulley in Figure Q5 has initial velocity of 350 mm/s and...
The cable C of the pulley in Figure Q5 has initial velocity of
350 mm/s and constant
acceleration of 275 mm/s2 that directed to the right. The inner
radius of pulley that
connected to the cable C is 80 mm while the radius of the outer
pulley that connected
to the load B is 115 mm.
(a) Find the number of revolution when ? = 5 s.
(b) Calculate the velocity and change in position of the load B
after...
Part A) Angular Acceleration of the Rod Determine the angular acceleration of the rod the instant the rope and pulley system have pulled the rod through an angle of θ=2.50∘. Part B) Normal Component o...
Part A) Angular Acceleration
of the Rod
Determine the angular acceleration of the rod the instant the
rope and pulley system have pulled the rod through an angle of
θ=2.50∘.
Part B) Normal Component of the Reaction at A
Determine the normal component of the reaction the rod exerts on
the pin at A. Use the coordinate system set up by the free-body
diagram below.
Part C) Tangential Component of the Reaction at A
Determine the tangential component of the...
The fiqure shows a man sitting in a bosun's chair that dangles from a massless rope, which runs over a massless, frictionless pulley and back down to the man's hand. The combined mass of man and chair is 78.4 kg. With what force magnitude must the man pull on the rope if he is to rise (a) with a constant velocity and (b) with an upward acceleration of 1.42 m/s2? (Hint: A free-body diagram can really help.) Problem continues below...
a) what was the acceleration of the block down the ramp before
the rope is pulled?
b) what was the acceleration of the block down the ramp after
the rope is pulled?
A4 kg block is released from rest at the top of a frictionless plane of length 9m that is inclined at an angle of 21 degrees to the horizontal Acord is attached to the block and trails along behind it. When the block reaches a point 3 m...
The figure shows a man sitting in a bosun's chair that dangles
from a massless rope, which runs over a massless, frictionless
pulley and back down to the man's hand. The combined mass of man
and chair is 83.1 kg. With what force magnitude must the man pull
on the rope if he is to rise (a) with a constant
velocity and (b) with an upward acceleration of
1.27 m/s2? (Hint: A free-body diagram can really help.) Problem
continues below....
. (a) Determine the velocity of block A if end B of the rope is pulled down with a speed of 1.5 m/s 1.5 m/s B (b) Determine the speed and acceleration of block A if end F rope is pulled with a speed of 3 m/s and acceleration of a = 0.5 m/s2 Determine distance risen by A in 4 seconds. F Dy 3 m/s
Problem (3) A motor M and a frictionless pulley-cable system are used to lift the 850 lb crate shown at a constant acceleration. The motor has an efficiency of E = 0.6 and the input power to it is 92 hp at the instant when the load has been hoisted s = 15 ft starting from rest. Determine the tension force in the cable. Neglect the mass of the pulleys and cable.
Please show work!
A pulley of negligible mass is attached to a block weighing 504
N. A person uses the rope and pulley system illustrated in the
figure to lift the block at a constant velocity. The pulleys and
rope are all ideal.
F_G=____________ ?
A. Draw the free body diagram for the block. (Observe that three
are two rope segments pulling on the block.)
B. Apply Newton's first law and determine the tension in the
rope, and thus, the...
The cable C of the pulley in Figure Q5 has initial velocity of
350 mm/s and constant
acceleration of 275 mm/s2 that directed to the right. The inner
radius of pulley that
connected to the cable C is 80 mm while the radius of the outer
pulley that connected
to the load B is 115 mm.
(a) Find the number of revolution when ? = 5 s.
(b) Calculate the velocity and change in position of the load B
after...
Part A) Angular Acceleration
of the Rod
Determine the angular acceleration of the rod the instant the
rope and pulley system have pulled the rod through an angle of
θ=2.50∘.
Part B) Normal Component of the Reaction at A
Determine the normal component of the reaction the rod exerts on
the pin at A. Use the coordinate system set up by the free-body
diagram below.
Part C) Tangential Component of the Reaction at A
Determine the tangential component of the...
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