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 and couple are vector quantity. Indicate clearly magnitude and direction of the parameters. Draw appropriate free body diagrams and reference system to clearly illustrate your logical solution steps.
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As shown in Fig. 3, a homogenous disk of mass m = 3.5 kg rotates
at...
A thin disk of mass m = 4 kg rotates with an angular velocity W2 with...
A thin disk of mass m = 4 kg rotates with an angular velocity W2 with respect to arm ABC, which itself rotates with an angular velocity w1 about the y axis. Assume that ABC has a negligible mass. -450 mm 150 mm 225 mm Determine the couple Mij that should be applied to arm ABC to give it an angular acceleration (1= -(8.1 rad/s2); when w1 = 5.6 rad/s, knowing that the disk rotates at the constant rate w2...
unable to find the x and y values.. A thin disk of mass m = 4...
unable to find the x and y values..
A thin disk of mass m = 4 kg rotates at the constant rate W2 =16 rad/s with respect to arm ABC, which itself rotates at the constant rate wi=6 rad/s about the y axis. Determine the angular momentum of the disk about point A. (Round the final answer to three decimal places.) 450 mm T = 150 mm The angular momentum of the disk about its center C is Ha=- kg.mº/s)j...
E17. A uniform disk with a mass of 7 kg and a radius of 0.4 m is rotating with a rotational veloc...
E17. A uniform disk with a mass of 7 kg and a radius of 0.4 m is rotating with a rotational velocity of 15 rad/s. a. What is the rotational inertia of the disk? (See fig. 8.15.) b. What is the angular momentum of the disk?
E17. A uniform disk with a mass of 7 kg and a radius of 0.4 m is rotating with a rotational velocity of 15 rad/s. a. What is the rotational inertia of the disk?...
The plate has a mass of 6 kg and is welded to the fixed vertical shaft,...
The plate has a mass of 6 kg and is welded to the fixed vertical
shaft, which rotates at the constant speed of 12 pi rad/s. Define
the reaction forces at both bearings supports at the instant
shown.
100 100 mmmm -200 mm- 45° -200 mm- 0
A solid disk of mass m = 9.2 kg and radius R = 0.2 m is...
A solid disk of mass m = 9.2 kg and radius R = 0.2 m is rotating with a constant angular velocity of w = 38 rad/s. A thin rectangular rod with mass m2 = 3.7 kg and length L = 2R = 0.4 m begins at rest above the disk and is dropped on the disk where it begins to spin with the disk. 1) What is the initial angular momentum of the rod and disk system? kg-m2/s Submit...
A disk with moment of inertia 9.15 × 10−3 kg∙m^2 initially rotates about its center at...
A disk with moment of inertia 9.15 × 10−3 kg∙m^2 initially rotates about its center at angular velocity 5.32 rad/s. A non-rotating ring with moment of inertia 4.86 × 10−3 kg∙m^2 right above the disk’s center is suddenly dropped onto the disk. Finally, the two objects rotate at the same angular velocity ?? about the same axis. There is no external torque acting on the system during the collision. Please compute the system’s quantities below. 1. Initial angular momentum ??...
Exercise 10.16 0.4 m 30° 0.4 m A homogenous dise of mass 3 kg is welded...
Exercise 10.16 0.4 m 30° 0.4 m A homogenous dise of mass 3 kg is welded in the middle of a 0.8 kg/m uni- formn rol as shown in the figure. Deter- mine the angular acceleration a for the position shown when the rod is rotating atrad/s. Determine also components of the caction at A. R 0.1 m O= 2 rad/s
A 3-kg disk A is mounted on arm BC, which has a negligible mass. A torque...
A 3-kg disk A is mounted on arm BC, which has a negligible mass. A torque of M = (5e0.5t) N.m, where t is in seconds, is applied to the arm at C. Suppose that I = 220 mm . (Figure 1) Figure < 1 of 1 2 60 mm M = (5ea5) N.m с Part A Determine the magnitude of the angular velocity of BC in 2 s starting from rest. Solve the problem assuming that the it rotates...
A ladybug crawls along the radius of a rotating compact disk of mass M = 0.015...
A ladybug crawls along the radius of a rotating compact disk of mass M = 0.015 kg and radius r = 0.06 m (ldisk = Mr²/2). The pivot is frictionless and the disk is initially rotating with angular speed wa = 31.416 rad/s. The ladybug starts at the outer edge (Figure A) and ends at center (Figure B). At the end of the ladybug's travel the disk rotates with angular speed wg = 31.510 rad/s. WB Figure A Figure B...
1a. A cockroach of mass m lies on the rim of a uniform disk of mass...
1a. A cockroach of mass m lies on the rim of a uniform
disk of mass 9.00 m that can rotate freely about its
center like a merry-go-round. Initially the cockroach and disk
rotate together with an angular velocity of 0.456 rad/s. Then the
cockroach walks halfway to the center of the disk.
(a) What then is the angular velocity of the
cockroach-disk system?
(b) What is the ratio
K/K0 of the new kinetic energy of the
system to its...
A thin disk of mass m = 4 kg rotates with an angular velocity W2 with respect to arm ABC, which itself rotates with an angular velocity w1 about the y axis. Assume that ABC has a negligible mass. -450 mm 150 mm 225 mm Determine the couple Mij that should be applied to arm ABC to give it an angular acceleration (1= -(8.1 rad/s2); when w1 = 5.6 rad/s, knowing that the disk rotates at the constant rate w2...
unable to find the x and y values..
A thin disk of mass m = 4 kg rotates at the constant rate W2 =16 rad/s with respect to arm ABC, which itself rotates at the constant rate wi=6 rad/s about the y axis. Determine the angular momentum of the disk about point A. (Round the final answer to three decimal places.) 450 mm T = 150 mm The angular momentum of the disk about its center C is Ha=- kg.mº/s)j...
E17. A uniform disk with a mass of 7 kg and a radius of 0.4 m is rotating with a rotational velocity of 15 rad/s. a. What is the rotational inertia of the disk? (See fig. 8.15.) b. What is the angular momentum of the disk?
E17. A uniform disk with a mass of 7 kg and a radius of 0.4 m is rotating with a rotational velocity of 15 rad/s. a. What is the rotational inertia of the disk?...
The plate has a mass of 6 kg and is welded to the fixed vertical
shaft, which rotates at the constant speed of 12 pi rad/s. Define
the reaction forces at both bearings supports at the instant
shown.
100 100 mmmm -200 mm- 45° -200 mm- 0
A solid disk of mass m = 9.2 kg and radius R = 0.2 m is rotating with a constant angular velocity of w = 38 rad/s. A thin rectangular rod with mass m2 = 3.7 kg and length L = 2R = 0.4 m begins at rest above the disk and is dropped on the disk where it begins to spin with the disk. 1) What is the initial angular momentum of the rod and disk system? kg-m2/s Submit...
Exercise 10.16 0.4 m 30° 0.4 m A homogenous dise of mass 3 kg is welded in the middle of a 0.8 kg/m uni- formn rol as shown in the figure. Deter- mine the angular acceleration a for the position shown when the rod is rotating atrad/s. Determine also components of the caction at A. R 0.1 m O= 2 rad/s
A 3-kg disk A is mounted on arm BC, which has a negligible mass. A torque of M = (5e0.5t) N.m, where t is in seconds, is applied to the arm at C. Suppose that I = 220 mm . (Figure 1) Figure < 1 of 1 2 60 mm M = (5ea5) N.m с Part A Determine the magnitude of the angular velocity of BC in 2 s starting from rest. Solve the problem assuming that the it rotates...
A ladybug crawls along the radius of a rotating compact disk of mass M = 0.015 kg and radius r = 0.06 m (ldisk = Mr²/2). The pivot is frictionless and the disk is initially rotating with angular speed wa = 31.416 rad/s. The ladybug starts at the outer edge (Figure A) and ends at center (Figure B). At the end of the ladybug's travel the disk rotates with angular speed wg = 31.510 rad/s. WB Figure A Figure B...
1a. A cockroach of mass m lies on the rim of a uniform
disk of mass 9.00 m that can rotate freely about its
center like a merry-go-round. Initially the cockroach and disk
rotate together with an angular velocity of 0.456 rad/s. Then the
cockroach walks halfway to the center of the disk.
(a) What then is the angular velocity of the
cockroach-disk system?
(b) What is the ratio
K/K0 of the new kinetic energy of the
system to its...
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