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P (N) The 40-kg disk is rotating at o = 100 rad/s. When the force P...
The 42-kg disk is rotating at w = 110 rad/s. When the force P is applied...
The 42-kg disk is rotating at w = 110 rad/s. When the force P is applied to the brake as indicated by the graph. The coefficient of kinetic friction at B is mu_k = 0.5. Neglect the thickness of the brake. (Figure 1) Determine the time t needed to stay the disk from rotating. Express your answer to three significant figures and include the appropriate units.
E MC422_TEST2_2020.pc x + V € → O o file:///C/Users/Muham/Downloads/MC422_TEST2_2020.pdf 2 of 5 10 - +...
E MC422_TEST2_2020.pc x + V € → O o file:///C/Users/Muham/Downloads/MC422_TEST2_2020.pdf 2 of 5 10 - + Fit to page Page view A Reac aliud Add reites E Question #1. (10 marks) 160 mm 800 mm The speed of a rotating system is controlled with a brake as shown. 100 mm The drum A has a mass of 300 kg and a radius of gyration about the centre of rotation of ke-200 mm. The kinetic coefficient of friction between the brake...
6. Band Brake A differential band brake is used to control the speed of a drum...
6. Band Brake A differential band brake is used to control the speed of a drum which rotates at a constant speed. Knowing that the coefficient of kinetic friction between the belt and the drum is 0.30 and that a couple of magnitude 150 N.m is applied to the drum, determine the corresponding magnitude of the force P that is exerted on end D of the lever when the drum is rotating (a) clockwise, (b) counterclockwise. r 140 mm 30...
Question 7 8 pts A disk is rotating at 21 rad/s counter-clockwise about its center and...
Question 7 8 pts A disk is rotating at 21 rad/s counter-clockwise about its center and a constant angular acceleration of 4 rad/s? is applied to it clockwise. After 0.69 seconds, what is its rotational kinetic energy about its center if c 1/2, the mass of the disk is 4 kg, and its radius is 0.74 meters? Answer in Joules.
A stationary bicycle is raised off the ground, and its front wheel (m = 1.3 kg)...
A stationary bicycle is raised off the ground, and its front wheel (m = 1.3 kg) is rotating at an angular velocity of 14.2 rad/s (see the drawing). The front brake is then applied for 3.0 s, and the wheel slows down to 3.2 rad/s. Assume that all the mass of the wheel is concentrated in the rim, the radius of which is 0.34 m. The coefficient of kinetic friction between each brake pad and the rim is μk =...
Figure shows a disk with moment of inertia J=0.5 kg-m2 that is initially rotating at an...
Figure shows a disk with moment of inertia J=0.5 kg-m2 that is initially rotating at an angular velocity 0 0 = 40 rad/s. A flexible shaft with torsional spring constant k = 65 N-m/rad connected to the disk. The disk is subjected to friction, which is modeled by linear viscous friction torque bò, with friction coefficient b = 1.0 N-m-s/rad. The input torque in the clockwise direction is a step function Tin(t) = 3.0U(t) N-m. Flexible shaft, k Disk Viscous...
As shown in Fig. 3, a homogenous disk of mass m = 3.5 kg rotates at...
As shown in Fig. 3, a homogenous disk of mass m = 3.5 kg rotates
at the constant rate ?1 = 15 rad/s with respect to arm ABC, which
is welded to a shaft DCE rotating at the constant rate ?2 = 8.5
rad/s. Determine (a) the angular momentum of the disc about point C
(b) the couple of body representing the dynamic reactions at
supports D and E and (c) the kinetic energy of the system. Both
angular momentum...
The 50-kg flywheel has a radius of gyration about its center of mass of ko= 250mm....
The 50-kg flywheel has a radius of gyration about its center of
mass of ko= 250mm. It rotates with a constant angular velocity of
120rev/min before the brake is applied. If the coefficient of
kinetic friction between the brake pad B and the wheel’s rim is ?k=
0.5, and a force of P = 300 N is applied to the braking mechanism’s
handle, determine the time required to stop the wheel.
0.5 m 1 m 0.2 m 0.3 m
A 50.0 kg child stands at the rim of a merry-go-round of radius 2.40 m, rotating with an angular speed of 3.05 rad/s. (a...
A 50.0 kg child stands at the rim of a merry-go-round of radius 2.40 m, rotating with an angular speed of 3.05 rad/s. (a) What is the child's centripetal acceleration? ______ m/s2 (b) What is the minimum force between her feet and the floor of the carousel that is required to keep her in the circular path? ______ N (c) What minimum coefficient of static friction is required? _______ Is the answer you found reasonable? In other words, is she...
2) A 200 kg bumper car A moving at 15.0 m/s crashes into a 300 kg...
2) A 200 kg bumper car A moving at 15.0 m/s crashes into a 300 kg bumper car Binition Ignore the friction on car A but car B's coefficient of kinetic friction is 0.600 since its brake between the two cars during the crash as they slow down together bumper car B initially stationary with its brakes on. riction is 0.600 since its brakes are on. Find the force
The 42-kg disk is rotating at w = 110 rad/s. When the force P is applied to the brake as indicated by the graph. The coefficient of kinetic friction at B is mu_k = 0.5. Neglect the thickness of the brake. (Figure 1) Determine the time t needed to stay the disk from rotating. Express your answer to three significant figures and include the appropriate units.
E MC422_TEST2_2020.pc x + V € → O o file:///C/Users/Muham/Downloads/MC422_TEST2_2020.pdf 2 of 5 10 - + Fit to page Page view A Reac aliud Add reites E Question #1. (10 marks) 160 mm 800 mm The speed of a rotating system is controlled with a brake as shown. 100 mm The drum A has a mass of 300 kg and a radius of gyration about the centre of rotation of ke-200 mm. The kinetic coefficient of friction between the brake...
6. Band Brake A differential band brake is used to control the speed of a drum which rotates at a constant speed. Knowing that the coefficient of kinetic friction between the belt and the drum is 0.30 and that a couple of magnitude 150 N.m is applied to the drum, determine the corresponding magnitude of the force P that is exerted on end D of the lever when the drum is rotating (a) clockwise, (b) counterclockwise. r 140 mm 30...
Question 7 8 pts A disk is rotating at 21 rad/s counter-clockwise about its center and a constant angular acceleration of 4 rad/s? is applied to it clockwise. After 0.69 seconds, what is its rotational kinetic energy about its center if c 1/2, the mass of the disk is 4 kg, and its radius is 0.74 meters? Answer in Joules.
Figure shows a disk with moment of inertia J=0.5 kg-m2 that is initially rotating at an angular velocity 0 0 = 40 rad/s. A flexible shaft with torsional spring constant k = 65 N-m/rad connected to the disk. The disk is subjected to friction, which is modeled by linear viscous friction torque bò, with friction coefficient b = 1.0 N-m-s/rad. The input torque in the clockwise direction is a step function Tin(t) = 3.0U(t) N-m. Flexible shaft, k Disk Viscous...
As shown in Fig. 3, a homogenous disk of mass m = 3.5 kg rotates
at the constant rate ?1 = 15 rad/s with respect to arm ABC, which
is welded to a shaft DCE rotating at the constant rate ?2 = 8.5
rad/s. Determine (a) the angular momentum of the disc about point C
(b) the couple of body representing the dynamic reactions at
supports D and E and (c) the kinetic energy of the system. Both
angular momentum...
The 50-kg flywheel has a radius of gyration about its center of
mass of ko= 250mm. It rotates with a constant angular velocity of
120rev/min before the brake is applied. If the coefficient of
kinetic friction between the brake pad B and the wheel’s rim is ?k=
0.5, and a force of P = 300 N is applied to the braking mechanism’s
handle, determine the time required to stop the wheel.
0.5 m 1 m 0.2 m 0.3 m
2) A 200 kg bumper car A moving at 15.0 m/s crashes into a 300 kg bumper car Binition Ignore the friction on car A but car B's coefficient of kinetic friction is 0.600 since its brake between the two cars during the crash as they slow down together bumper car B initially stationary with its brakes on. riction is 0.600 since its brakes are on. Find the force
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