When a 250 kg crate is on a 25 degree incline, its acceleration is 0.70 m/s/s....

A 3.00 kg block slides down a 37.0 degree inclined plane. If the acceleration of the...

A 3.00 kg block slides down a 37.0 degree inclined plane. If the acceleration of the block is 1.52 m/s2, a) the force of kinetic friction on the block. b) the normal force on the block. c) the coefficient of kinetic friction on the block. d) the angle needed to make the block slide down the incline at a constant speed.

A block with mass m=4.7 kg is on a frictionless incline surface (incline angle =44 degree)....

A block with mass m=4.7 kg is on a frictionless incline surface (incline angle =44 degree). An external force of F is applied parallel to inclined surface. If the block moves with a constant speed upward, find the magnitude of the applied force. Take g=9.81 m/s2and round your answer to 1 decimal place.

A 17.6-kg crate starts at rest at the top of a 60.0° incline. The coefficients of...

A 17.6-kg crate starts at rest at the top of a 60.0° incline. The coefficients of friction are μs = 0.400 and μk = 0.300. The crate is connected to a hanging 8.00-kg box by an ideal rope and pulley. a) How long does it take the crate to slide 2.00 m down the incline? ( in seconds) b)To push the crate back up the incline at constant speed, with what force should you push on the crate (parallel to...

This time we have a crate of mass 42.4 kg on an inclined surface, with a...

This time we have a crate of mass 42.4 kg on an inclined surface, with a coefficient of kinetic friction 0.139. Instead of pushing on the crate, you let it slide down due to gravity. What must the angle of the incline be, in order for the crate to slide with an acceleration of 5.96 m/s^2?

This time we have a crate of mass 43.5 kg on an inclined surface, with a...

This time we have a crate of mass 43.5 kg on an inclined surface, with a coefficient of kinetic friction 0.102. Instead of pushing on the crate, you let it slide down due to gravity. What must the angle of the incline be, in order for the crate to slide with an acceleration of 5.28 m/s^2?

A crate of fruit with a mass of 31.0 kg and a specific heat capacity of...

A crate of fruit with a mass of 31.0 kg and a specific heat capacity of 3600 J/(kg?K) slides 7.60 m down a ramp inclined at an angle of 36.8 degrees below the horizontal. If the crate was at rest at the top of the incline and has a speed of 2.05 m/s at the bottom, how much work Wf was done on the crate by friction? Use 9.81 m/s2 for the acceleration due to gravity and express your answer...

A crate of fruit with a mass of 33.5 kg and a specific heat capacity of...

A crate of fruit with a mass of 33.5 kg and a specific heat capacity of 3800 J/(kg?K) slides 8.30 m down a ramp inclined at an angle of 37.4 degrees below the horizontal. If the crate was at rest at the top of the incline and has a speed of 2.20 m/s at the bottom, how much work Wf was done on the crate by friction? Use 9.81 m/s2 for the acceleration due to gravity and express your answer...

3. This time we have a crate of mass 40.2 kg on an inclined surface, with...

3. This time we have a crate of mass 40.2 kg on an inclined surface, with a coefficient of kinetic friction 0.164. Instead of pushing on the crate, you let it slide down due to gravity. What must the angle of the incline be, in order for the crate to slide with an acceleration of 3.83 m/s^2?

A crate of fruit with a mass of 35.0 kg and a specific heat capacity of...

A crate of fruit with a mass of 35.0 kg and a specific heat capacity of 3800 J/(kg⋅K) slides 8.40 m down a ramp inclined at an angle of 36.1 degrees below the horizontal. Part A: If the crate was at rest at the top of the incline and has a speed of 2.65 m/s at the bottom, how much work Wf was done on the crate by friction? Use 9.81 m/s2 for the acceleration due to gravity and express...

A.) This time we have a crate of mass 27.8 kg on an inclined surface, with...

A.) This time we have a crate of mass 27.8 kg on an inclined surface, with a coefficient of kinetic friction 0.283. Instead of pushing on the crate, you let it slide down due to gravity. What must the angle of the incline be, in order for the crate to slide with an acceleration of 3.12 m/s^2? Multiple choice - 20.2 - 43.7 - 26.9 - 33.6