A force of constant magnitude pushes a box up a vertical surface as shown in the figure. The box moves at a constant speed. If the mass of the box is 3.70 kg, it is pushed 3.60 m vertically upward, the coefficient of friction is 0.350 and the angle ? is 30.0°, determine the following.

(a) work done on the box by F
 J

(b) work done on the box by the force of gravity
 J

(c) work done on the box by the normal force
 J

(d) increase in gravitational potential energy of the box as it moves up the wall
 J

Transcribed Image Text:

The image depicts a block resting against a vertical wall. An arrow labeled \( \vec{F} \) represents a force acting on the block. This force is applied at an angle \( \theta \) with respect to the horizontal direction. The block is shown as a gray rectangle in contact with the wall on its right side. The force \( \vec{F} \) is illustrated as a red arrow pointing towards the point of contact with the wall, at an angle \( \theta \) from the horizontal dashed line extending from the block. This diagram is typically used in physics to illustrate the concept of forces acting at an angle, which is relevant for understanding components of force, static equilibrium, and friction forces.