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The mass of the cabinet shown is 15 kg, and the distance between the casters 0.5...
(6 points) - Problem 1: A 20 Kg Cabinet is mounted on casters, assuming that the...
(6 points) - Problem 1: A 20 Kg Cabinet is mounted on casters, assuming that the casters are locked and slide on the rough floor (Mx=0.25). if a 100 N force is applied as shown, determine (a) theacceleration of the cabinet, (b) the range of values of h for which the cabinet will not tip. 100 N 0.9 m 0.6 m
A 20-kg cabinet is mounted on casters that allow it to move freely (u = 0)...
A 20-kg cabinet is mounted on casters that allow it to move freely (u = 0) on the floor if a 100-N force is applied as shown, determine the acceleration of the cabinet and the range of values of h for which the cabinet will not tip G 0.9 m 0.6 m The acceleration of the cabinet is Range of values of h m/s? — (Round the final answer to wo decimal places) (Round the final answer to three decimal...
-1 ft-o-1-1 8. The 7 ft tall cabinet shown at right has a weight of 160...
-1 ft-o-1-1 8. The 7 ft tall cabinet shown at right has a weight of 160 lb and a center of gravity that is 3.5 ft from the floor as shown. A horizontal force Pis applied to the side at a height of 4.0 ft from the floor. The coefficient of static friction between the legs and the floor is us= 0.2 and the coefficient of kinetic friction is fix=0.15. f. 19 points) If the applied force is 35 lb,...
1. 1563 46 in. Point G represents the center of mass of the cabinet. Assume that...
1. 1563 46 in. Point G represents the center of mass of the cabinet. Assume that G is in the center of the cabinet (left to right) The static coefficient of friction between the cabinet and the floor is 0.30. The kinetic coefficient of friction between the cabinet and the floor is 0.24. The cabinet weighs 230 lb Assume that the cabinet slides before it tips EXAMPLE NOTES IMAGES DISCUSS UNITS STATS HELP Part Description Answer Chk History What value...
1. 1563 46 in Point G represents the center of mass of the cabinet Assume that...
1. 1563 46 in Point G represents the center of mass of the cabinet Assume that G is in the center of the cabinet (left to right) The static coefficient of friction between the cabinet and the floor is 0.35 The kinetic coefficient of friction between the cabinet and the floor is 0.28 The cabinet weighs 300 lb Assume that the cabinet slides before it tips EXAMPLE NOTES IMAGES DISCUSS UNITS STATS HELP Part Description Answer Chk History What value...
CLASS ID#: (2) GIVEN (35 Prs): A uniform block cabinet of mass m and effective dimensions...
CLASS ID#: (2) GIVEN (35 Prs): A uniform block cabinet of mass m and effective dimensions shown is mounted on small casters of negligible mass and diameter which allow it to move freely (u=0) on the floor. A horizontal force of F is applied at a distances above the base of the cabinet FIND: (A) (-10 Pts) The ACCELERATION of the cabinet: (B) (-15 Pts) The RANGE OF S VALUES for which the cabinet will not tip forward or backwards....
In the figure shown, the coefficient of kinetic friction between the 2.0 kg and the 3.0...
In the figure shown, the coefficient of kinetic friction between the 2.0 kg and the 3.0 kg blocks is 0.30. The horizontal surface and the pulleys are friction less and the masses are released from rest. a) Draw a FBD of each block. b) Determine the acceleration of each block. c) Find the tension in the strings.
The uniform crate has a mass of 50 kg and rests on the cart having an...
The uniform crate has a mass of 50 kg and rests on the cart having an inclined surface. Determine the smallest acceleration that will cause the crate either tip or slip relative to the cart. What is the magnitude of this acceleration? The coefficient of static friction between the crate and the cart is mu_s = 0.5.
The mass of the child with the sled is 25 kg and the magnitude of the...
The mass of the child with the sled is 25 kg and the magnitude of the push on the child is 45 N acting to the left. The coefficient of kinetic friction between the sled and the snow, mk = 0.15. The magnitude of the friction force is _____N The net force acting on the child-sled system is _____ What will be the ACCELERATION of the sled shown below? _____ m/s2
5. A half section of a uniform thin pipe of mass m 2 kg is at...
5. A half section of a uniform thin pipe of mass m 2 kg is at rest when a force P 40 N is applied at point A as shown. The static and kinetic friction coefficients are μ': 0.15 and μ"01, respectively. Determine (a) the angular acceleration, and (b) the magnitude and direction of the friction force between the thin pipe and the horizontal plane. The distance between the geometric center O and mass center G of the thin pipe...
(6 points) - Problem 1: A 20 Kg Cabinet is mounted on casters, assuming that the casters are locked and slide on the rough floor (Mx=0.25). if a 100 N force is applied as shown, determine (a) theacceleration of the cabinet, (b) the range of values of h for which the cabinet will not tip. 100 N 0.9 m 0.6 m
A 20-kg cabinet is mounted on casters that allow it to move freely (u = 0) on the floor if a 100-N force is applied as shown, determine the acceleration of the cabinet and the range of values of h for which the cabinet will not tip G 0.9 m 0.6 m The acceleration of the cabinet is Range of values of h m/s? — (Round the final answer to wo decimal places) (Round the final answer to three decimal...
-1 ft-o-1-1 8. The 7 ft tall cabinet shown at right has a weight of 160 lb and a center of gravity that is 3.5 ft from the floor as shown. A horizontal force Pis applied to the side at a height of 4.0 ft from the floor. The coefficient of static friction between the legs and the floor is us= 0.2 and the coefficient of kinetic friction is fix=0.15. f. 19 points) If the applied force is 35 lb,...
1. 1563 46 in. Point G represents the center of mass of the cabinet. Assume that G is in the center of the cabinet (left to right) The static coefficient of friction between the cabinet and the floor is 0.30. The kinetic coefficient of friction between the cabinet and the floor is 0.24. The cabinet weighs 230 lb Assume that the cabinet slides before it tips EXAMPLE NOTES IMAGES DISCUSS UNITS STATS HELP Part Description Answer Chk History What value...
1. 1563 46 in Point G represents the center of mass of the cabinet Assume that G is in the center of the cabinet (left to right) The static coefficient of friction between the cabinet and the floor is 0.35 The kinetic coefficient of friction between the cabinet and the floor is 0.28 The cabinet weighs 300 lb Assume that the cabinet slides before it tips EXAMPLE NOTES IMAGES DISCUSS UNITS STATS HELP Part Description Answer Chk History What value...
CLASS ID#: (2) GIVEN (35 Prs): A uniform block cabinet of mass m and effective dimensions shown is mounted on small casters of negligible mass and diameter which allow it to move freely (u=0) on the floor. A horizontal force of F is applied at a distances above the base of the cabinet FIND: (A) (-10 Pts) The ACCELERATION of the cabinet: (B) (-15 Pts) The RANGE OF S VALUES for which the cabinet will not tip forward or backwards....
In the figure shown, the coefficient of kinetic friction between the 2.0 kg and the 3.0 kg blocks is 0.30. The horizontal surface and the pulleys are friction less and the masses are released from rest. a) Draw a FBD of each block. b) Determine the acceleration of each block. c) Find the tension in the strings.
The uniform crate has a mass of 50 kg and rests on the cart having an inclined surface. Determine the smallest acceleration that will cause the crate either tip or slip relative to the cart. What is the magnitude of this acceleration? The coefficient of static friction between the crate and the cart is mu_s = 0.5.
5. A half section of a uniform thin pipe of mass m 2 kg is at rest when a force P 40 N is applied at point A as shown. The static and kinetic friction coefficients are μ': 0.15 and μ"01, respectively. Determine (a) the angular acceleration, and (b) the magnitude and direction of the friction force between the thin pipe and the horizontal plane. The distance between the geometric center O and mass center G of the thin pipe...
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