A catapult on a cliff launches a large round rock towards a ship on the ocean be

Question

A catapult on a cliff launches a large round rock towards a ship on the ocean below. The rock leaves the catapult from a height H of 35.0 m above sea level, directed at an angle ? above the horizontal with an unknown speed v0. The projectile remains in flight for 6.00 seconds and travels a horizontal distance D of 153.0 m. Assuming that air friction can be neglected, calculate the value of the angle ?. Calculate the speed at which the rock is launched. To what height above sea level does the rock rise?

Explanation / Answer

for x direction: Vx = D / t = 181 / 6 = 30.17 so Vo cos q = 30.17 ... (1) for the vertical y motion : - 31 = Vyt - 1/5 g t^2 => -31 = Vo sin q (6) - 4.9 (36) => Vo sin q = 24.23 ... (2) div (2) / (1) u get : tan q = 0.8 => q = 38.66 degrees - taking eqn 1 u get: Vo cos 38.66 = 30.17 => Vo = 38.6 m/s - at max h : Vy = 0 , so: 0 = [38.6 sin(38.66)]^2 - 2(9.8) y => y = 29.7 m - Vy = 0 at max height

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