to the top of the ramp in terms of the following quantities: mg (the magnitude of the weight HV Write an expression for the net external work done on the block as it moves from the bottom of the block) and H (the height of the ramp). Show your work. Free-body diagram for block H la the space provided, draw and label a free-body diagram for the block as it moves up the ramp. b. For each force on the block, determine the angle between the displacement of the block and the force as the block moves up the ramp. Write an expression for the work done on the block by each force as the block moves up the 16 Express your answer in terms of any or all of the following: sin 0, cos 6, m, g, and d. ir the work done by any force is zero, state so explicitly. Show your work. You may need to use the angle addition formula cos (a + B) = cos a cos B- sin a sin p.

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**Work and Changes in Kinetic Energy** **5.** A block of mass \( m \) is launched up a frictionless ramp with initial speed \( v_0 \) as shown below. The block travels up the ramp and continues across the level section. *Diagram:* - The diagram shows a ramp inclined at an angle \( \theta \) to the horizontal. - A block is launched up the ramp with an initial velocity \( v_0 \). - The length of the ramp is denoted by \( d \), and the height of the ramp is \( H \). In the space provided, draw and label a free-body diagram for the block as it moves up the ramp. **a.** Draw and label a free-body diagram for the block as it moves up the ramp. **b.** For each force on the block, determine the angle between the displacement of the block and the force as the block moves up the ramp. **Task:** Write an expression for the work done on the block by each force as the block moves up the ramp. Express your answer in terms of any or all of the following: \( \sin \theta, \cos \theta, m, g, \) and \( d \). If the work done by any force is zero, state so explicitly. Show your work. You may need to use the angle addition formula \( \cos(\alpha + \beta) = \cos \alpha \cos \beta - \sin \alpha \sin \beta \). **Task:** Write an expression for the net external work done on the block as it moves from the bottom to the top of the ramp in terms of the following quantities: \( mg \) (the magnitude of the weight of the block) and \( H \) (the height of the ramp). Show your work.