*17-48. The snowmobile has a weight of 250 lb, centered at Gj, while the rider has a weight of 150 lb, centered at G,. If h = 3 ft, determine the snowmobile's maximum permissible acceleration a so that its front skid does not lift off the ground. Also, find the traction (horizontal) force and the normal reaction under the rear tracks at A. 0.5 ft 1 ft F1.5 ft-
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A: Given Data: The length of the chain is L= 20 ft. The weight per unit length of the chain is ρ = 5…
Q: *17-24. The door has a weight of 200 lb and a center of gravity at G. Determine how far the door…
A: Draw the FBD for a better understanding of the problem.
Q: 17-81. Determine the angular acceleration of the 25-kg diving board and the horizontal and vertical…
A: Given data: The mass of the board is: m=25 kg The maximum deflection of the spring is: x=200 mm The…
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Q: 17-105. If the coefficient of static friction between the 50-lb roller and the ground is u, = 0.25,…
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Q: 17-54. The crate C has a weight of 150 lb and rests on the truck elevator. Determine the initial…
A: Draw the free body diagram for the above diagram.
Q: 17-111. The semicircular disk having a mass of 10 kg is rotating at w = 4 rad/s at the instant 0 =…
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Q: The door has a weight of 200 lb and a center of gravity at G. Determine the constant force F that…
A: Given data: *The weight of the door is w=200 lb. *The distance required to move the door is s=12 ft.…
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Q: 13-89. The boy of mass 40 kg is sliding down the spiral slide at a constant speed such that his…
A: Consider the mass of the child to be m. Draw the free-body diagram of the boy.
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A: Given : mass of cart (m) = 100 kg To determine: (a) acceleration of the cart (b) Normal reactions…
Q: 17-50. If the cart's mass is 30 kg, determine the horizontal force P that should be applied to the…
A: Given Data: The mass of the cart is: M=30 kg The mass of rod BC is: m=15 kg
Q: *17-44. The uniform bar of mass m is pin connected to the collar, which slides along the smooth…
A: Draw the FBD for the given problem. Let θ be the angle made by the rod and L be its length. Write…
Q: 17-47. The snowmobile has a weight of 250 lb, centered at G,, while the rider has a weight of 150…
A: Given that front skid should not lift, So, Reaction at B is zero (assuming its on verge of lift)…
Q: 17-35. The sports car has a mass of 1.5 Mg and a center of mass at G. Determine the shortest time it…
A:
Q: *17-108. The semicircular disk having a mass of 10 kg is rotating at w = 4 rad/s at the instant e =…
A: Draw the free body diagram of the disc: Calculate moment of inertia about the center of gravity:…
Q: R18-8. At the instant the spring becomes undeformed, the center of the 40-kg disk has a speed of 4…
A: Given Data: The spring constant is k = 200 N/m. The mass of the disk is M = 40 kg. The initial…
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A: The given problem can be solved by using Kinetics principle such as D'Alemberts principle. The rear…
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A: Sketch the FBD for the above problem.
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A: Draw the free body diagram of the both blocks and apply static equilibrium conditions: Free body…
Q: The boy of mass 40 kg is sliding down the spiral slide at a constant speed such that his position,…
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Q: *14-28. The 10-1b box falls off the conveyor belt at 5-ft/s. If the coefficient of kinetic friction…
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Q: Specifically a dynamics problem. Question in pic below.
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A: Given Data: The weight of the beam is W=5000 lb. The initial velocity of the beam is u = 0. The…
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Q: F14-3. If the motor exerts a force of F = (600 + 2²) N on the cable, determine the speed of the…
A: Answer :- Given parameters : Motor exerts force, F = (600 + 2s2) N Mass of Crate = 100 kg distance ,…
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A: Write the expression of kinematic motion. v=u+at3=0+a5a=0.6 ft/s2
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A: Data given- b = 60×10-6 m-1 c = 1500 m W = 900 N v = 240 m/s
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Q: *17-52. The pipe has a mass of 800 kg and is being towed behind a truck. If the angle e = 30°,…
A: The representation of forces on the pipe is:
Q: F17-6. At the instant shown, link CD rotates with an angular velocity of w = 6 rad/s. If it is…
A: Draw the free body diagram for the link CD.
Q: *15-4. Each of the cables can sustain a maximum tension of 5000 Ib. If the uniform beam has a weight…
A: Given data: Tension in each cable, T = 5000 lb Weight of the beam, w =5000 lb Speed, v2 = 10 ft/s…
Q: This is a dynamics question.
A: Given data for the given system is,
Q: This is a Dynamics question. Answer: FA = (3/2)*mg
A: Given data as per question Mass of rod = m considering free body diagram
Q: 4-If the ball has a mass of 30 kg and a speed v-4 m/sat the instant it is at its lowest point,0-0,…
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Q: *17-24. 6 ft- The door has a weight of 200 Ib and a center of gravity at G. Determine how far the…
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Q: R18-3. The drum has a mass of 50 kg and a radius of gyration about the pin at O of ko = 0.23 m.…
A: Given: the mass of drum = 50 kg The mass of block B = 15 kg The coefficient of kinetic friction =…
Q: Question in pic below. Specifically a dynamics problem.
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A: Given: m=1500 kg; μs=0.2; v=80 km/h To find: Time taken to reach v for the rear wheel and all-wheel…
Q: 10 km/h в 20 km/h k - 3 MN/m Prob. 15–51
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Q: This is a dynamics question. The answer is 481 mm.
A: The free body diagram of both the cars A and B is shown below:
Q: This is a dynamics problem. Answers: F = 5.96 lb, NB = 99 lb, NA =…
A: Given data as per question Weight of door = 200 lb
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A: Given data: Mass of automobile, w = 2700 lb Final Velocity, v2 = 4 ft/s Coefficient of kinetic…
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Q: *17-40. The smooth 180-lb pipe has a length of 20 ft and a negligible diameter. It is carried on a…
A: For Normal reaction at point AWe have∑MB=∑M -W×10×1213+NA×13=-max×10×513…
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A: Drawing free body diagram for the desk.
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Q: 15-47. The 30-Mg freight car A and 15-Mg freight car B are moving towards each other with the…
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- 6 ft 17-24. The door has a weight of 200 Ib and a center of gravity at G. Determine how far the door moves in 2 s, starting from rest, if a man pushes on it at C with a horizontal force F = 30 lb. Also, find the vertical reactions at the rollers A and B.If the hydraulic cylinder BE exerts a vertical force of F = 1.5 kNon the platform, determine the force developed in links AB and CD at the instant Ѳ= 90°. The platform is at rest when Ѳ= 45°. Neglect the mass of the links and the platform. The 200-kg crate does not slip on the platform.The horizontal force P = 325 N. Determine the normal reaction forces at A and B. The mass of the cylinder is m = 9 kg and that of the cart is M = 31 kg. Neglect all friction. P 56° A m B 56° M
- Determine the steady-state angle a if the constant force P = 195 N is applied to the cart of mass M = 16 kg. The cart travels on the slope of angle 0 = 25° The pendulum bob has mass m = 4 kg and the rigid bar of length L = 1.1 m has negligible mass. Ignore all friction. P M L mDetermine the steady-state angle a if the constant force P = 200 N is applied to the cart of mass M = 19 kg. The cart travels on the slope of angle e = 18°. The pendulum bob has mass m = 4 kg and the rigid bar of length L = 1.9 m has negligible mass. Ignore all friction. M L Answer: a = iDetermine the force P required to maintain the 200-kg engine in the position for which = 30o. The diameter of the pulley at B is negligible ( take g=10 m/s2) e 2 m A B 2 m 200 kg
- Determine the steady-state angle α if the constant force P = 180 N is applied to the cart of mass M = 9 kg. The cart travels on the slope of angle θ = 16°. The pendulum bob has mass m = 3 kg and the rigid bar of length L = 1.2 m has negligible mass. Ignore all friction.Q1: The 2-Mg truck achieves a speed of 15 m/s with a constant acceleration after it has traveled a distance of 100 m, starting from rest. Determine the normal force exerted on each pair of front wheels B and rear driving wheels A. Also, find the traction force on the pair of wheels at A. The front wheels are free to roll. Neglect the mass of the wheels Ans.: NB = 10729.3 N, NA = 8890.71 N traction force FA = 2250 N 0.75 m 2 m 1.5 m- $3 BThe door has à weight of 200lb and a center of gravity at G. Determine the constant force F that must be applied to the door to push it open 12ft to the right in 5s, starting from rest. Also, find the vertical reactions at the rollers A and B. 6 ft 6 ft 12 ft 5 ft 3 ft
- The system consists of the two smooth spheres, each weighing 3 lb and connected by a light spring, and the two bars of negligible weight hinged freely at their ends and hanging in the vertical plane. The spheres are confined to slide in the smooth horizontal guide. If a horizontal force F = 10 lb is applied to the one bar at the position shown, what is the accelera- tion of the center C of the spring? Why does the re- sult not depend on the dimension b?Determine the smallest force the man must exerton the rope in order to move the 80-kg crate Also,what is the angle θ at this moment? Thecoefficient of static friction between the crate andthe floor is μs = 0.3.The smooth block B, having a mass of 1 kg, is attached to the vertex of the right circular cone using a light cord. If the block has a speed of 0.6 m/s around the cone, determine the tension in the cord and the reaction which the cone exerts on the block. Neglect the size of the block. 200 mm 400 mm 300 mm