As part of a mountain rescue team, you need to project a box of supplies up an incline of constant slope α so that it reaches a stranded skier whose vertical distance above the bottom of the incline is h. The slope is covered with snow which has a coeffici ent of kinetic frictionk. Use the work-energy theorem to find the minimum speed you must give the box at the bottom of the incline so that it reaches the skier. Your answer should be in terms of g, h,k and α.

As part of a mountain rescue team, you need to project a box of supplies up an incline of constant slope α so that it reaches a stranded skier whose vertical distance above the bottom of the incline is h. The slope is covered with snow which has a coeffici ent of kinetic frictionk. Use the work-energy theorem to find the minimum speed you must give the box at the bottom of the incline so that it reaches the skier. Your answer should be in terms of g, h,k and α.

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Question

As part of a mountain rescue team, you need to project a box of supplies up an incline of constant

slope α so that it reaches a stranded skier whose vertical distance above the bottom of the incline is

h. The slope is covered with snow which has a coeffici

ent of kinetic frictionk. Use the work-energy

theorem to find the minimum speed you must give the box at the bottom of the incline so that it

reaches the skier. Your answer should be in terms of g, h,k

and α.

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