A pulley, with a rotational inertia of 9.4 × 10-3 kg·m2 about its axle and a...
A pulley, with a rotational inertia of 9.4 × 10-3 kg·m2 about its axle and a radius of 6.0 cm, is acted on by a force applied tangentially at its rim. The force magnitude varies in time as F = 0.70t + 0.30t2, with F in newtons and t in seconds. The pulley is initially at rest. At t = 3.3 s what are (a) its angular acceleration and (b) its angular speed?
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angular speed calculation is incorrect as force changes with time
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A pulley, with a rotational inertia of 9.4 × 10-3
kg·m2 about its axle and a...
A pulley, with a rotational inertia of 7.6 × 10-3 kg·m2 about its axle and a...
A pulley, with a rotational inertia of 7.6 × 10-3
kg·m2 about its axle and a radius of 9.3 cm, is acted on
by a force applied tangentially at its rim. The force magnitude
varies in time as F= 0.60t +
0.30t2, with F in newtons and
t in seconds. The pulley is initially at rest. At
t = 1.0 s what are (a) its angular
acceleration and (b) its angular speed?
Question 3 A pulley, with a rotational inertia...
A pulley having a rotational inertia of 1.2 ✕ 10-3 kg·m^2 about its axle and a...
A pulley having a rotational inertia of 1.2 ✕ 10-3 kg·m^2 about its axle and a radius of 25 cm is acted on by a force, applied tangentially at its rim, that varies in time as F = 0.50t + 0.30t^2, where F is in newtons and t in seconds. If the pulley was initially at rest, find its angular speed after 10.0 s. ANSWER in rad/s^2
Question 2 (8 marks) Applied force A vertical pulley, of radius 0.4 meter, can rotate about...
Question 2 (8 marks) Applied force A vertical pulley, of radius 0.4 meter, can rotate about a horizontal axle (axle has friction) that goes through its center. The rotational inertia of the pulley about this axle is 16 x 10 kg.m. The torque due to friction in the axle is constant, with magnitude 0.8 Nm. A vertical force, of constant magnitude 11.0 N, is continuously applied tangentially to the rim of the pulley as shown above. The pulley is initially...
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The angular momentum of a flywheel having a rotational inertia of 0.150 kg·m2 about its axis...
The angular momentum of a flywheel having a rotational inertia of 0.150 kg·m2 about its axis decreases from 3.40 to 1.400 kg·m2/s in 0.90 s. (a) What is the average torque acting on the flywheel about its central axis during this period? N·m (b) Assuming a uniform angular acceleration, through what angle will the flywheel have turned? rad (c) How much work was done on the wheel? J (d) What is the average power of the flywheel? W
1a. 1b. A disk with a rotational inertia of 1.20 kg·m2 rotates like a merry-go-round while...
1a.
1b. A disk with a rotational inertia of 1.20 kg·m2
rotates like a merry-go-round while undergoing a torque given by
τ = (4.01 + 2.79t) N · m. At time t =
1.00 s, its angular momentum is 3.53 kg·m2/s. What is
its angular momentum at t = 3.00 s?
In the figure here, three particles of mass m = 0.013 kg are fastened to three rods of length d = 0.13 m and negligible mass. The rigid assembly...
A yo-yo has a rotational inertia of 1100 g·cm2 and a mass of 118 g. Its...
A yo-yo has a rotational inertia of 1100 g·cm2 and a mass of 118 g. Its axle radius is 1.99 mm, and its string is 133 cm long. The yo-yo rolls from rest down to the end of the string. (a) What is the magnitude of its linear acceleration? (b) How long does it take to reach the end of the string? As it reaches the end of the string, what are its (c) linear speed, (d) translational kinetic energy,...
Rotational Inertia for Point Masses (theoretical valuel Part II: Rotational Inertia of Both Point Masses -...
Rotational Inertia for Point Masses (theoretical valuel Part II: Rotational Inertia of Both Point Masses - Experimental Use equations (2) through (5) to derive an equation for I, the rotational inertia, in terms of m, 1,8, and a. Where m now represents the mass of the hanging mass. Box 2 center of rotation, the total rotational inertia will be MR2 where Mota = M, + M2, the total mass of both point masses. To find the rotational inertia experimentally, a...
In the figure, block 1 has mass m1 = 460 g, block 2 has mass m2 = 592 g, and the pulley is on a frictionless horizontal axle and has radius R = 4.70 cm
In the figure, block 1 has mass m1 = 460 g, block 2 has mass m2 = 592 g, and the pulley is on a frictionless horizontal axle and has radius R = 4.70 cm. When released from rest, block 2 falls 74.7 cm in 5.32 s without the cord slipping on the pulley. (a) What is the magnitude of the acceleration of the blocks? What are(b) tension T2 (the tension force on the block 2) and (c) tensionT1 (the...
In the figure, block 1 has mass m1 = 460 g, block 2 has mass m2 = 590 g, and the pulley is on a frictionless horizontal axle and has radius R = 4.7 cm
In the figure, block 1 has mass m1 = 460 g,
block 2 has mass m2 = 590 g, and the pulley is
on a frictionless horizontal axle and has radius R = 4.7
cm. When released from rest, block 2 falls 80 cm in 5.4 s without
the cord slipping on the pulley. (a) What is the
magnitude of the acceleration of the blocks? What are(b) tension T2 (the tension
force on the block 2) and (c) tensionT1 (the...
A pulley, with a rotational inertia of 7.6 × 10-3
kg·m2 about its axle and a radius of 9.3 cm, is acted on
by a force applied tangentially at its rim. The force magnitude
varies in time as F= 0.60t +
0.30t2, with F in newtons and
t in seconds. The pulley is initially at rest. At
t = 1.0 s what are (a) its angular
acceleration and (b) its angular speed?
Question 3 A pulley, with a rotational inertia...
Question 2 (8 marks) Applied force A vertical pulley, of radius 0.4 meter, can rotate about a horizontal axle (axle has friction) that goes through its center. The rotational inertia of the pulley about this axle is 16 x 10 kg.m. The torque due to friction in the axle is constant, with magnitude 0.8 Nm. A vertical force, of constant magnitude 11.0 N, is continuously applied tangentially to the rim of the pulley as shown above. The pulley is initially...
1a.
1b. A disk with a rotational inertia of 1.20 kg·m2
rotates like a merry-go-round while undergoing a torque given by
τ = (4.01 + 2.79t) N · m. At time t =
1.00 s, its angular momentum is 3.53 kg·m2/s. What is
its angular momentum at t = 3.00 s?
In the figure here, three particles of mass m = 0.013 kg are fastened to three rods of length d = 0.13 m and negligible mass. The rigid assembly...
Rotational Inertia for Point Masses (theoretical valuel Part II: Rotational Inertia of Both Point Masses - Experimental Use equations (2) through (5) to derive an equation for I, the rotational inertia, in terms of m, 1,8, and a. Where m now represents the mass of the hanging mass. Box 2 center of rotation, the total rotational inertia will be MR2 where Mota = M, + M2, the total mass of both point masses. To find the rotational inertia experimentally, a...
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