(a) What is the magnitude of the torque on the disk (about the z axis) due to F1? (1pt)
(b) What is the magnitude of the torque on the disk due to F2? (1pt)
(c) What is the magnitude of the torque on the disk due to F3? (1pt)
(d) What is the magnitude and direction (clockwise or counterclockwise) of the angular ac- celeration about the z-axis of the disk? (2pt)
(e) If the disk starts from rest, what is the angular speed and the rotational kinetic energy of the disk after the forces have been applied for t = 0.6 s? (2pt)
(f) What is the linear acceleration and velocity of a point on the rim of the disk at 0.6 s? (2pt)
(g) How many revolutions does the disk make during first 0.6 s? (1pt)
Homework Answers
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(a) What is the magnitude of the torque on the disk (about the z
axis)...
A uniform disk with mass m = 8.55 kg and radius R = 1.35 m lies...
A uniform disk with mass m = 8.55 kg and radius R = 1.35 m lies in the xy plane and centered at the origin. Three forces act on the disk in the +y-direction (see figure below): (1) a force F1 = 335 N at the edge of the disk on the +x-axis, (2) a force F2 = 335 N at the edge of the disk on the ?y-axis, and (3) a force F3 = 335 N at the edge...
a) What is the magnitude of the torque on the disk about the z axis due...
a) What is the magnitude of the torque on the disk about the z
axis due to F1?
b) What is the magnitude of the torque on the disk about the z
axis due to F2?
c) What is the magnitude of the torque on the disk about the z
axis due to F3?
d) What is the x-component of the net torque about the z axis on
the disk?
e) What is the y-component of the net torque about...
1) What is the magnitude of the torque on the disk about the z axis due...
1)
What is the magnitude of the torque on the disk about the z axis
due to F1?
N-m
2)
What is the magnitude of the torque on the disk about the z axis
due to F2?
N-m
3)
What is the magnitude of the torque on the disk about the z axis
due to F3?
N-m
4)
What is the x-component of the net torque about the z axis on
the disk?
N-m
5)
What is the y-component of...
A uniform disk with mass m = 9.04 kg and radius R = 1.35 m lies...
A uniform disk with mass m = 9.04 kg and radius R = 1.35 m lies in the x-y plane and centered at the origin. Three forces act in the +y-direction on the disk: 1) a force 309 N at the edge of the disk on the +x-axis, 2) a force 309 N at the edge of the disk on the –y-axis, and 3) a force 309 N acts at the edge of the disk at an angle θ =...
A uniform disk with mass m = 9.07 kg and radius R = 1.36 m lies...
A uniform disk with mass m = 9.07 kg and radius R = 1.36 m lies in the x-y plane and centered at the origin. Three forces act in the +y-direction on the disk: 1) a force 313 N at the edge of the disk on the +x-axis, 2) a force 313 N at the edge of the disk on the –y-axis, and 3) a force 313 N acts at the edge of the disk at an angle θ =...
A uniform disk with mass m = 8.91 kg and radius R = 1.31 m lies...
A uniform disk with mass m = 8.91 kg and radius R = 1.31 m lies
in the x-y plane and centered at the origin. Three forces act in
the +y-direction on the disk: 1) a force 340 N at the edge of the
disk on the +x-axis, 2) a force 340 N at the edge of the disk on
the –y-axis, and 3) a force 340 N acts at the edge of the disk at
an angle θ =...
A large solid disk of radius 0.56 m freely rotates about a vertical frictionless axis at...
A large solid disk of radius 0.56 m freely rotates about a vertical frictionless axis at an initial angular speed of 8.3 rad/s. A small friction brake is used to bring the disk to rest in a time of 4.5 s by pressing the brake radially inward against the rim of the disk with a constant force of 36 N as shown in the figure below. The coefficient of friction between the brake and the disk is 0.4. Side View...
A large solid disk of radius 0.51m freely rotates about a vertical frictionless axis at an...
A large solid disk of radius 0.51m freely rotates about a vertical frictionless axis at an initial angular speed of 9 rad's. A small friction brake is used to bring the disk to rest in a time of 4.4 s by pressing the brake radially inward against the rim of the disk with a constant force of 36 N as shown in the figure below The coefficient of friction between the brake and the disk is 0.37 Side View Top...
Three forces are exerted on the disk shown in the figure below, and their magnitudes are...
Three forces are exerted on the disk shown in the figure below, and their magnitudes are F3 = 2F2 = 2F1. The disk's outer rim has radius R, and the inner rim has radius R/2. As shown in the figure, Fi and F3 are tangent to the outer rim of the disk, and $2 is tangent to the inner rim. F3 is parallel to the x axis, F2 is parallel to the y axis, and F1 makes a 45° angle...
Complete the table below. (Measure all angles bet ween 0° and 360, counterclockwise fzon the +z-axis.) Data Table 2...
Complete the table below. (Measure all angles bet ween 0° and 360, counterclockwise fzon the +z-axis.) Data Table 2 g-component (N) z-component (N) Angle (degrees) Force Mass (N) (kg) Force 150 0.300 Fi F2 0-35a 25 R= Fi+F Resultant Equilibrant What is the calculated value of Fa (equilibrant) needed to balance the two forces F1 and F2 magnitude F3,cale direction 03,cale What are the experimental values of F2 and F3? magnitude F2exp direction θ2,01p magnitude F3,exp direction 03,exp What is...
a) What is the magnitude of the torque on the disk about the z
axis due to F1?
b) What is the magnitude of the torque on the disk about the z
axis due to F2?
c) What is the magnitude of the torque on the disk about the z
axis due to F3?
d) What is the x-component of the net torque about the z axis on
the disk?
e) What is the y-component of the net torque about...
1)
What is the magnitude of the torque on the disk about the z axis
due to F1?
N-m
2)
What is the magnitude of the torque on the disk about the z axis
due to F2?
N-m
3)
What is the magnitude of the torque on the disk about the z axis
due to F3?
N-m
4)
What is the x-component of the net torque about the z axis on
the disk?
N-m
5)
What is the y-component of...
A uniform disk with mass m = 8.91 kg and radius R = 1.31 m lies
in the x-y plane and centered at the origin. Three forces act in
the +y-direction on the disk: 1) a force 340 N at the edge of the
disk on the +x-axis, 2) a force 340 N at the edge of the disk on
the –y-axis, and 3) a force 340 N acts at the edge of the disk at
an angle θ =...
A large solid disk of radius 0.56 m freely rotates about a vertical frictionless axis at an initial angular speed of 8.3 rad/s. A small friction brake is used to bring the disk to rest in a time of 4.5 s by pressing the brake radially inward against the rim of the disk with a constant force of 36 N as shown in the figure below. The coefficient of friction between the brake and the disk is 0.4. Side View...
A large solid disk of radius 0.51m freely rotates about a vertical frictionless axis at an initial angular speed of 9 rad's. A small friction brake is used to bring the disk to rest in a time of 4.4 s by pressing the brake radially inward against the rim of the disk with a constant force of 36 N as shown in the figure below The coefficient of friction between the brake and the disk is 0.37 Side View Top...
Three forces are exerted on the disk shown in the figure below, and their magnitudes are F3 = 2F2 = 2F1. The disk's outer rim has radius R, and the inner rim has radius R/2. As shown in the figure, Fi and F3 are tangent to the outer rim of the disk, and $2 is tangent to the inner rim. F3 is parallel to the x axis, F2 is parallel to the y axis, and F1 makes a 45° angle...
Complete the table below. (Measure all angles bet ween 0° and 360, counterclockwise fzon the +z-axis.) Data Table 2 g-component (N) z-component (N) Angle (degrees) Force Mass (N) (kg) Force 150 0.300 Fi F2 0-35a 25 R= Fi+F Resultant Equilibrant What is the calculated value of Fa (equilibrant) needed to balance the two forces F1 and F2 magnitude F3,cale direction 03,cale What are the experimental values of F2 and F3? magnitude F2exp direction θ2,01p magnitude F3,exp direction 03,exp What is...
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