A block lies on an inclined plane with an angle of elevation theta. The inclined plane...

A 42.0 kg block lies on a smooth(friction less) inclined plane tilted at an angle of...

A 42.0 kg block lies on a smooth(friction less) inclined plane tilted at an angle of 35° to the horizontal. a) Draw the free-body diagram for the block. b) Determine the block's acceleration as it slides down the inclined plane.

If a block of mass 10 kg slides down an inclined plane having an angle of...

If a block of mass 10 kg slides down an inclined plane having an angle of 30 degrees above the horizon,at the end of the inclined plane there is a frictionless surface on the end of it lies a spring having spring constant 500N/m.There is friction on the inclined plane,Find the coefficient of kinetic friction of the inclined plane. when the block reaches the spring,it compresses it by 0.40m Let the block start from rest and the height be 20...

A block is at rest on an inclined plane whose elevation can be varied. The coefficient...

A block is at rest on an inclined plane whose elevation can be varied. The coefficient of static friction is μs= 0.36, and the coefficient of kinetic friction is μk = 0.16. The angle of elevation θ is increased slowly from the horizontal. At what value of θ does the block begin to slide (in degrees)? What is the acceleration of the block?

A block of mass4 kgkg  is dragged up an inclined plane. The plane is inclined at an...

A block of mass4 kgkg  is dragged up an inclined plane. The plane is inclined at an angle of 45degrees to the horizontal. The coefficient of kinetic friction between the block and the plane is 0.5. What force is needed to drag the block up the plane at a constant speed? What force is needed to accelerate the block up the plane at a rate of 5 meters per second squared? If the force acting in Part-B drags the block by...

A wooden block rests on an inclined wooden plane. The significant forces acting on the block...

A wooden block rests on an inclined wooden plane. The significant forces acting on the block are (select all that apply) A. the block's acceleration. B. the normal force that the inclined plane exerts on the block. C. friction. D. air resistance. E. the gravitational force that the inclined plane exerts on the block. F. the gravitational force that the Earth exerts on the block. G. the tension force that the inclined plane exerts on the block. H. another force...

A block of mass m = 3.3 kg is on an inclined plane with a coefficient...

A block of mass m = 3.3 kg is on an inclined plane with a coefficient of friction μ1 = 0.39, at an initial height h = 0.53 m above the ground. The plane is inclined at an angle θ = 44°. The block is then compressed against a spring a distance Δx = 0.13 m from its equilibrium point (the spring has a spring constant of k1 = 35 N/m) and released. At the bottom of the inclined plane...

A block with mass ?1 is placed on an inclined plane with slope angle ? and...

A block with mass ?1 is placed on an inclined plane with slope angle ? and is connected to a hanging block with mass ?2 by a cord passing over a small, frictionless pulley. The coefficient of static friction is ?s, and the coefficient of kinetic friction is ?k. (a) Find the value of ?2 for which the block of mass ?1 moves up the plane at a constant speed once it is set in motion (b) Find the value...

A 13 kg block is accelerated at 1.9 m/s2 up a frictionless plane inclined at 4.5°...

A 13 kg block is accelerated at 1.9 m/s2 up a frictionless plane inclined at 4.5° to the horizontal, with the speed increasing from 14 m/s to 32 m/s. What are (a) the change in the block's mechanical energy and (b) the average rate at which energy is transferred to the block? What is the instantaneous rate of that transfer when the block's speed is (c) 14 m/s and (d) 32 m/s?

A 11 kg block is accelerated at 1.7 m/s2 up a frictionless plane inclined at 8.2°...

A 11 kg block is accelerated at 1.7 m/s2 up a frictionless plane inclined at 8.2° to the horizontal, with the speed increasing from 13 m/s to 27 m/s. What are (a) the change in the block's mechanical energy and (b) the average rate at which energy is transferred to the block? What is the instantaneous rate of that transfer when the block's speed is (c) 13 m/s and (d) 27 m/s?

A block of mass M2 = 8.45 kg on a plane inclined moving down at angle...

A block of mass M2 = 8.45 kg on a plane inclined moving down at angle θ = 50° is connected by a cord over a massless, frictionless pulley to a second block of mass M1 = 5.36 kg on a horizontal surface. The coefficient of kinetic friction between M1, M2 and the surface is μk = 0.150, the Force F1 = 11.3 N is acting downward on M1, and the Force F2 = 21.8 N is acting on M2...