Projectile motion of a cannonball problem

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A cannonball is launched at an initial velocity v0 from a height of 40m at a 30-degree angle, striking the ground with a speed of 1.2*v0. Users discuss solving the problem using time and energy conservation methods, emphasizing the importance of considering both kinetic and potential energy. The energy conservation formula is provided, which relates initial and final heights and speeds. Participants suggest focusing on vertical motion and using the equation for gravitational acceleration. The discussion highlights the need to substitute known values into the energy conservation equation to find v0.
sweet_girl123
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a cannonball is fired with initial velocity v0 at an angle 30 above the horizontal from the height of 40m above the ground. the projection strikes the ground with a speed of 1.2*v0. find v0
 
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I tried by getting the time first
y = 1/2 gt^2

but I am lost after that can anyone please help me out...
 
Energy consideration maybe another(also faster i think=)) method to get the answer.
Try to think about the whole system energy(involve both KE and PE).Using the motion equation(Your Method), you could also get your answer eventually.
Think about the VERTICAL motion(Vo sin 30), you will also get the answer by setting up a motion equation
 
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Hi sweet_girl123! :smile:

Easiest way to do this is with energy conservation (as VulcanWong suggested).

The formula for that is:
g y_i + {1 \over 2} v_i^2 = g y_f + {1 \over 2} v_f^2
with:
y_i, y_f the initial and final heights
v_i, v_f the initial and final (total) speeds
g = 9.8 {m \over s^2} the acceleration of gravity

Can you fill in the numbers?
 

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