Chapter S6, Problem S6/003 GO Tutorial The force P is applied to the 37-kg block when...
The force Pis applied to the 60-kg block when it is at rest. Determine the magnitude and direction of the friction force exerted by the surface on the block if (a) P = 0. (b) P=227 N, and (c) P= 326 N. (d) What value of Pis required to initiate motion up the incline? The static and kinetic coefficients of friction between the block and the incline are s = 0.23 and Uk = 0.18, respectively. The friction force is...
The force P is applied to the 67-kg block when it is at rest. Determine the magnitude and direction of the friction force exerted by the surface on the block if (a) P = 0, (b) P 185 N, and (c) P 296 N. (d) What value of P is required to initiate motion up the incline? The static and kinetic coefficients of friction between the block and the incline are us 0.17 and u 0.14 respectively. The friction force...
The force P is applied to the 42-kg block when it is at rest. Determine the magnitude and direction of the friction force exerted by the surface on the block if (a) P = 0, (b) P = 124 N, and (c) P = 201 N. (d) What value of P is required to initiate motion up the incline? The static and kinetic coefficients of friction between the block and the incline are us = 0.18 and uk = 0.15,...
please explain steps thanks The force P is applied to the 43-kg block when it is at rest. Determine the magnitude and direction of the friction force exerted by the surface on the block if (a) P = 0 b) P-155 N, and c) P = 225 N d what value of P is required to initiate motion up the incline? The static and ki etic coefficients of friction between the block and the incline are μs = 0.21 and...
The force P is applied to the 49-kg block when it is at rest. Determine the magnitude and direction of the friction force exerted by the surface on the block if (a) P = 0, (b) P = 219 N, and (c) P = 311 N. (d) What value of P is required to initiate motion up the incline? The static and kinetic coefficients of friction between the block and the incline are μs = 0.29 and μk = 0.25,...
An 11 kg block is pulled up a 37* incline at a constant speed of 3.0 m/s. The pulling force F is parallel to the incline (sce Figure 1) and has a magnitude of 80 N 11 kg 379 Figure 1 a. (5 points) What is the magnitude of the normal force exerted on the block due to the incline? b. (5 points) What is the magnitude of kinetic friction force exerted on the block by the incline?
1. The block shown in the figure has a mass of 612 Kg. The static coefficient of friction between the block an the supporting surface is 0.33 while the kinetic coefficient of friction is 0.26. Ignore the size of the block. For P is parallel to the incline while the 1000N force is vertical. a) If P = 2000 N, the shown block is (circle the correct answer) (5 points) a) in equilibrium b) moving up the incline c) is...
1. The block shown in the figure has a mass of 612 Kg. The static coefficient of friction between the block and the supporting surface is 0.33 while the kinetic coefficient of friction is 0.26. Ignore the size of the block. Force Pis parallel to the incline while the 1000N force is vertical. a) If P = 2000 N, the shown block is (circle the correct answer) (5 points) a) in equilibrium b) moving up the incline c) is about...
Statics 1. The block shown in the figure has a mass of 612 Kg. The static coefficient of friction between the block and the supporting surface is 0.33 while the kinetic coefficient of friction is 0.26. Ignore the size of the block. Force Pis parallel to the incline while the 1000N force is vertical. a) If P= 2000 N, the shown block is (circle the correct answer) (5 points) a) in equilibrium b) moving up the incline c) is about...
A 10.0 kg block is resting on a horizontal surface when a force P is applied to it for 7.00 seconds. The variation of P with time is shown in the figure where P is in Newtons and t is in seconds. If the coefficients of static and kinetic friction between the block and the surface are μs = 0.600 and μk = 0.400 respectively, and g = 10.0 m/s2 calculate a) [2] The time t_1 at which the block...