an 7.8 kgcrate is pulled 4.5mup a 30∘ incline by a rope angled 18∘above the incline....

A 7.8 kg crate is pulled 5.4 m up a 30o incline by a rope angled...

A 7.8 kg crate is pulled 5.4 m up a 30o incline by a rope angled 19o above the incline. The tension in the rope is 120 N and the crate's coefficient of kinetic friction on the incline is 0.24. a) How much work is done by tension, by gravity, and by the normal force? b) What is the increase in thermal energy of the crate and incline?

An 7.7 kg crate is pulled 5.0 m up a 30∘ incline by a rope angled...

An 7.7 kg crate is pulled 5.0 m up a 30∘ incline by a rope angled 16 degrees above the incline. The tension in the rope is 100 N and the crate's coefficient of kinetic friction on the incline is 0.25. How much work is done by tension, by gravity, and by the normal force? What is the increase in thermal energy of the crate and incline?

An 8.2 kg crate is pulled 5.4 m up a 30∘ incline by a rope angled...

An 8.2 kg crate is pulled 5.4 m up a 30∘ incline by a rope angled 17 ∘ above the incline. The tension in the rope is 120 N and the crate's coefficient of kinetic friction on the incline is 0.26. How much work is done by tension, by gravity, and by the normal force? What is the increase in the thermal energy of the crate and incline? NV I have figured it out I wasn't thinking normal force was...

An 7.5 kg crate is pulled 5.5 m up a 30∘ incline by a rope angled...

An 7.5 kg crate is pulled 5.5 m up a 30∘ incline by a rope angled 19 ∘ above the incline. The tension in the rope is 120 N and the crate's coefficient of kinetic friction on the incline is 0.26. How much work is done by tension, by gravity, and by the normal force?

A 8.4 kg crate is pulled 4.7 m up a 30 degree incline by a rope...

A 8.4 kg crate is pulled 4.7 m up a 30 degree incline by a rope angled 15 degrees above the incline. The tension in the rope is 130 N and the crate's coefficient of kinetic friction on the incline is 0.27. 1.) What is the workd done by the Normal Force? 1.) What is the work done by the Frictional force? ANSWER: -47.7J 2.) What is the total work done on the crate? ANSWER: 349J 3.) If the object...

A crate of mass 10.6 kg is pulled up a rough incline with an initial speed...

A crate of mass 10.6 kg is pulled up a rough incline with an initial speed of 1.52 m/s. The pulling force is 94 N parallel to the incline, which makes an angle of 20.2° with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 4.94 m. (a) How much work is done by the gravitational force on the crate? (b) Determine the increase in internal energy of the crate–incline system owing to friction. (c)...

A crate of mass 9.6 kg is pulled up a rough incline with an initial speed...

A crate of mass 9.6 kg is pulled up a rough incline with an initial speed of 1.40 m/s. The pulling force is 98 N parallel to the incline, which makes an angle of 19.5° with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 4.98 m. (a) How much work is done by the gravitational force on the crate? J (b) Determine the increase in internal energy of the crate–incline system owing to friction....

A crate of mass 9.6 kg is pulled up a rough incline with an initial speed...

A crate of mass 9.6 kg is pulled up a rough incline with an initial speed of 1.52 m/s. The pulling force is 104 N parallel to the incline, which makes an angle of 20.4° with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 4.92 m. (a) How much work is done by the gravitational force on the crate? J (b) Determine the increase in internal energy of the crate–incline system owing to friction....

A crate of mass 10.2 kg is pulled up a rough incline with an initial speed...

A crate of mass 10.2 kg is pulled up a rough incline with an initial speed of 1.56 m/s. The pulling force is 92 N parallel to the incline, which makes an angle of 19.0° with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 5.04 m. (a) How much work is done by the gravitational force on the crate? J (b) Determine the increase in internal energy of the crate–incline system owing to friction....

A rope that is directed 30° above the horizontal, is exerting a 10.0-N force to pull...

A rope that is directed 30° above the horizontal, is exerting a 10.0-N force to pull a 5.0-kg block at constant speed along a 5.0-m horizontal floor. After drawing the free-body diagram find: the magnitude of the normal force from the floor on the block the magnitude of the force of friction the work done by the rope's force the increase in the thermal energy of the block-floor system the coefficient of kinetic friction between the block and floor.