There is a 690 kg box being pushed up an inclined surface by a horizontal force...

A box is pushed up an incline at a constant speed by a horizontal force of...

A box is pushed up an incline at a constant speed by a horizontal force of 30 N. The angle of the incline is 15.4 degrees. The box has a mass of 3.1 kg and moves a total distance of 2.96 m. The coefficient of kinetic friction between the box and the ramp is 0.59. What is the work done by the gravitational force during this motion? J What is the work done by the friction force during this motion?...

An object (m = 2.08 Kg) moving on a horizontal surface reaches the bottom of an...

An object (m = 2.08 Kg) moving on a horizontal surface reaches the bottom of an incline with a speed of 4.18 m/s. The incline makes an angle of 37.0 degrees with respect to the horizontal. The coefficient of kinetic friction between the box and the inclined surface is 0.300. How far up the inline will the object move before coming to stop?

A 65.0 kg box is pushed up a ramp inclined at 27.0∘. The applied force (F)...

A 65.0 kg box is pushed up a ramp inclined at 27.0∘. The applied force (F) is horizontal and causes the block to move at a constant speed. Determine the magnitude of the applied force, a. when the ramp is frictionless. b. when the coefficient of kinetic friction is 0.200.

A box is on an inclined which has angle θ=30 degrees with horizon. There is a...

A box is on an inclined which has angle θ=30 degrees with horizon. There is a box with mass M=5 kg on the inclined. The coefficient of friction between the box and the surface of inclined is μ=0.2 . a) If the box is kicked to move up the inclined and start moving up with velocity V=15 m/s moving upward, how far d=? does It move along the surface of inclined? b) How much energy Q=? is lost while the...

An 8.5-kg block is pushed along a horizontal rough surface by a 40-N force inclined at...

An 8.5-kg block is pushed along a horizontal rough surface by a 40-N force inclined at 20° with the horizontal. The coefficient of friction between the surface and block is 0.35. If the block has an initial velocity of 3.6 m/s and the force does 200 J of work on the block, find: (a) The total distance moved by the block. (b) The final velocity of the block.

A box kg meters with constant speed on a rough inclined plane whose surface is 30...

A box kg meters with constant speed on a rough inclined plane whose surface is 30 ° with the horizontal. What is the magnitude of the work done by the friction force? A box of mass M = 5 kg slides 10 meters with constant speed on a rough inclined plane whose surface is 30 ° with the horizontal. What is the magnitude of the work done by the friction force?

The initial speed of a 2.58-kg box traveling up a plane inclined 37° to the horizontal...

The initial speed of a 2.58-kg box traveling up a plane inclined 37° to the horizontal is 4.55 m/s. The coefficient of kinetic friction between the box and the plane is 0.30. (a) How far along the incline does the box travel before coming to a stop? ---m (b) What is its speed when it has traveled half the distance found in Part (a)? ---m/s

A stationary box of mass 9.5 kg is being pushed by a force 12.9 N at...

A stationary box of mass 9.5 kg is being pushed by a force 12.9 N at an angle θ = 31.2o with respect to the horizontal. The coefficient of static friction between box and surface is μs= 0.30. Calculate the magnitude of the MAXIMUM POSSIBLE static friction force which can be generated, to 2 s.f.

A 6.20 kg block is pushed 9.50 m up a smooth 36.0 ∘inclined plane by a...

A 6.20 kg block is pushed 9.50 m up a smooth 36.0 ∘inclined plane by a horizontal force of 70.0 N . If the initial speed of the block is 3.50 m/s up the plane. Calculate the initial kinetic energy of the block. Calculate the work done by the 70.0 N force. Calculate the work done by gravity. Calculate the work done by the normal force. Calculate the final kinetic energy of the block. Please explain

A box with mass 1.74 kg is being pulled across a rough surface at a constant...

A box with mass 1.74 kg is being pulled across a rough surface at a constant speed with a coefficient of kinetic friction µk = 0.366. The pulling force has a magnitude of 11.2 N and is directed at an angle 32.8 degrees above horizontal. If the box is dragged a distance of 10.3 m, what is the total energy lost to friction? (Hint: be sure to account for the upward component of the pulling force, and note that the...