In the figure below, a lump of wet putty moves in uniform circular motion as it rides at a radius of 20.0 cm on the rim of a wheel rotating counterclockwise with a period of 0.15 s. The lump then happens to fly off the rim at the 5 o'clock position. It leaves the rim at a height of h = 1.20 m from the floor and at a distance of 2.50 m from a wall. At what height on the wall does the lump hit? Use g = 9.8 m/s/s. Hint: You need to turn 5:00 into an angle and use projectile formula for this problem.

In the figure below, a lump of wet putty moves in uniform circular motion as it rides at a radius of 20.0 cm on the rim of a wheel rotating counterclockwise with a period of 0.15 s. The lump then happens to fly off the rim at the 5 o'clock position. It leaves the rim at a height of h = 1.20 m from the floor and at a distance of 2.50 m from a wall. At what height on the wall does the lump hit? Use g = 9.8 m/s/s. Hint: You need to turn 5:00 into an angle and use projectile formula for this problem.

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Question

In the figure below, a lump of wet putty moves in uniform circular motion as it rides at a radius of 20.0 cm on the rim of a wheel rotating counterclockwise with a period of 0.15 s. The lump then happens to fly off the rim at the 5 o'clock position. It leaves the rim at a height of h = 1.20 m from the floor and at a distance of 2.50 m from a wall. At what height on the wall does the lump hit? Use g = 9.8 m/s/s. Hint: You need to turn 5:00 into an angle and use projectile formula for this problem.