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Diagram:
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Solution:
(20 pts) Determine the acceleration of the 15 utaiocaed at Gand yn the space provided. A...
Problem 17.43 10 of 11 > Review (Figure 1) Part A Determine the acceleration of the 150-1b cabinet ir P = 34 11. The coefficients of static and kinetic friction between the cabinet and the plane are the = 0.2 and 4* = 0.15, respectively. The cabinet's center of gravity is located at G. Express your answer to three significant figures and include the appropriate units. Figure 1 of 1 > --1 ft----1 ft-- JÁ O a? a = 2.68...
Problem 2: Determine thelacceleration of 150-lb cabinet and the reaction forces at A and B if P 35 lb. The cabinet does not tip. The coefficient of kinetic friction between the cabinet and the plane is u0.15. The cabinet's center of gravity is located at G. [33 points] K D 4 ft 35 ft
-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,...
All calculations need the counting processand Free Body Diagram. 3. Determine the maximum force P that can be applied without causing movement of the 300-lb crate that has a center of gravity at G. The coefficient of static friction at the floor is Is = 0.4. (20 Points) 1.5 ft 1.5 ft 2.5 ft P- 'T 4.5 ft 3.5 ft
1. Adjust the angle of inclination of the ramp to be larger than the critical angle you found in the previous experiment. Place the block at the top of the ramp, carpeted side down, and release it. a Describe the motion of the block. If the block does not remain at rest, does the speed of the block increase, decrease, or remain constant? Block on Inc line b. In the space provided at right, draw a free body diagram of...
3. (20 pts.) Two blocks of masses m,-10 kg and m2 = 40 kg are connected by a light string as shown below. The coefficient of kinetic friction between m; and the table is 0.375 and the system starts from rest; Draw a free body diagram for each block and determine; a. The normal force acting upon mj. b. The system's acceleration. c. The tension in the string. d. The amount of time required for me to reach the floor...
A block with mass m1=200 g is on a plane that makes an angle theta = 30 degrees above the horizontal. The coefficient of kinetic friction between m1 and the plane is "mu k"= 0.10. Mass m1 is attached by a string to another mass, m2 = 250g, which hangs freely as shown in the picture provided. Block m2 accelerates downward once it is set in motion. Assume pulleys is frictionles and the weight of the string is negligible. a)...
A block with mass m1=200 g is on a plane that makes an angle theta = 30 degrees above the horizontal. The coefficient of kinetic friction between m1 and the plane is "mu k"= 0.10. Mass m1 is attached by a string to another mass, m2 = 250g, which hangs freely as shown in the picture provided. Block m2 accelerates downward once it is set in motion. Assume pulleys is frictionles and the weight of the string is negligible. a)...
A block with mass m1=200 g is on a plane that makes an angle theta = 30 degrees above the horizontal. The coefficient of kinetic friction between m1 and the plane is "mu k"= 0.10. Mass m1 is attached by a string to another mass, m2 = 250g, which hangs freely as shown in the picture provided. Block m2 accelerates downward once it is set in motion. Assume pulleys is frictionles and the weight of the string is negligible. a)...
A block with mass m1=200 g is on a plane that makes an angle theta = 30 degrees above the horizontal. The coefficient of kinetic friction between m1 and the plane is "mu k"= 0.10. Mass m1 is attached by a string to another mass, m2 = 250g, which hangs freely as shown in the picture provided. Block m2 accelerates downward once it is set in motion. Assume pulleys is frictionles and the weight of the string is negligible. a)...