Two blocks are connected with a rigid link as shown in Fig. prevent motion of the blocks if ma = 75 kg and mg = 25 kg. The coefficient of friction between the blocks and the sur- Determine the minimum force P required to face is 0.15. P B 35° 20° 45
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- The leather rein used to fasten the horse to the hitching rail weighs 3.5 oz per foot. The coefficient of static friction between the rail and the rein is 0.6. If a 34-lb force acting on the bridle is sufficient to restrain the horse, determine the smallest safe length L for the free end of the rein.A block with a mass of 100 kg (left-block) is connected to another block of mass M (right-block) by a cable that passes over a fixed drum as shown below. The coefficient of static friction between the left-block and the floor is 0.45, between the right-block and floor is 0.4, and between the cable and the fixed drum is 0.25. Ignore tipping (overturning). Determine the minimum mass of the left-block for which motion does not occur.In the system shown, determine the value of the force Fif the coefficient of friction between the body and floor is 0.41. P=102.309N
- If the coefficient of static friction between Wedge A and Crate B is 0.32 and between other contacting surfaces is 0.10, determine the minimum force P to raise crate B if the weights of A and B are WA=1670 N WB=2170 Nhttps://www.bartleby.com/questions-and-answers/if-the-coefficient-of-static-friction-between-wedge-a-and-crate-b-is-0.32-and-between-other-contacti/17427fa7-e42b-483b-bb40-15d4d6337be5Six 5 N blocks are stacked vertically. The coefficient of static friction between the blocks is µs = 0.20. Determine the horizontal force that must be applied to the fifth block from the top of the stack, in order to slide it out without moving the other blocks.A 4285 block is held in horizontal position as shown by a wedge at B. If the coefficient of friction between the block & the wedge is 0.25 and that between the wedge & the floor is 0.3, is the wedge self-locking?a. self-locking b. not self-locking c. cannot be determined
- The coefficient of static friction between A and C and between B and D is μs = 0.24, and between A and B is μs′ = 0.15. Neglect the weight of each wedge. (Figure 1) Determine the horizontal force P needed to pull out wedge A. Express your answer to three significant figures and include the appropriate units.The coefficient of static friction between the block and the plane is μs=0.2, and between the rope and the drum D is μ′s=0.3. (Figure 1) Determine the maximum value of weight W which may be applied without causing the 75-lb block to slip. Determine the minimum value of weight W which may be applied without causing the block to slip.The homogeneous 322-lb body A of Fig. P10-30 is moving to the right with a velocity of 6 fps. The coefficient of friction between A and the horizontal plane is 0.2. Determine the maximum weight body B may have without causing A to tip.
- Please answer this NEATLY, COMPLETELY, and CORRECTLY for an UPVOTE. Determine the force Q required to lift the 92-kg steel crate which rests against a 5° - wedge on a side and brick wall on the other side. The coefficient of frictions between the crate and wedge, wedge and surface, crate and surface are 0.45, 0.35, and 0.38, respectively. Use g=9.806 m/s2. Please, answer as soon as possible. Thank you.Determine the maximum and minimum values of weight "W" that the block on the left can have without the 100-N block on the right side slipping. The coefficients of static friction between the block and the inclined plane, and between the rope and the drum D are: mu_1 = 0.2 and mu_2 = 0.3, respectively. By what percentage would the maximum value of W vary if both coefficients of friction doubled?Block A weighing 60 lb rests on block B weighing 80 lb. Block A is restrained from moving by a horizontal rope tied to the wall at C. What force P parallel to the plane inclined 30 degrees with the horizontal is necessary to start B down the plane? Assume coefficient of friction for all surfaces to be 1/3. Give solution. (Ans. P = 40.3 lb)