Calculate Angle & Speed of Rock Launched from Cliff Catapult

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A catapult launches a rock from a height of 34.0 meters at an unknown speed towards a ship, with the projectile in flight for 6.00 seconds and covering 174 meters horizontally. The horizontal velocity was calculated to be 29 m/s, while the vertical velocity was found to be 23.73 m/s. Using these values, the launch angle was determined to be approximately 39.29 degrees. The total launch speed of the rock was calculated to be 37.47 m/s. Proper nourishment is emphasized as beneficial for solving complex physics problems.
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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 34.0m above sea level, directed at an angle above the horizontal with an unknown speed. The projectile remains in flight for 6.00 seconds and travels a horizontal distance of 174m. Assuming that air friction can be neglected, calculate the value of the angle (in degrees). Also calculate the speed at which the rock is launched.

My brains are cooked. I'm not sure where to begin with this one.
 
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Cooked brains or not, please show your reasoning and lots of working. :smile:

What are the equations governing the motion of a projectile ?
 
Thanks for the hint. I took a break, ate dinner, shook off the frustration, then came back and solved the problem
For horizontal velocity X = Xo + (Vxo)t,
174m = 0+(Vxo)6.00s,
Vxo = 29 m/s
For vertical velocity Y = Yo + (Vyo)T - 1/2gt^2,
-34m = (Vyo)6.00s - (1/2)(9.8m/s^2)(6.00s^2)
Vyo = 23.73m/s
So the angle theta = tan-1 (23.73/29) = 39.29deg
and the rock is launched at... Square root of (29^2 + 23.73^2) = 37.47

The moral of the story is don't do physics on an empty stomach.
 

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