How Does a Catapult Calculate Force and Initial Velocity for a Projectile?

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To launch a 200 kg projectile over a 12-meter-high castle wall and hit a keep located 75 meters inside the wall, the average force delivered by the catapult is calculated to be 5940 N. The catapult holds the projectile for 2 seconds before release, resulting in an initial velocity of approximately 39.78 m/s at an angle of 25.6 degrees with respect to the horizontal. The angle is derived using the tangent function based on the height of the wall and the distance from the catapult to the wall. The calculations involve using kinematic equations to determine both the initial velocity and the average force. This analysis provides a comprehensive approach to solving projectile motion problems involving catapults.
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Please,I need help with this problem...

You are launching a 200kg projectile over the castle wall and trying to hit the keep. If the catapult holds the projectile for 2 seconds before releasing what is the average force delievered by the catapult?

The keep itself is located 75 meters inside the castle wall while the catapult is 50 meters outside the castle wall. Determine the initial velocity (speed & angle with respect to the horizontal) of the projectile if it is to just clear the castle wall and impact the keep.

Remember the wall is 12 meters high.
 
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rebeccah78 said:
Please,I need help with this problem...

You are launching a 200kg projectile over the castle wall and trying to hit the keep. If the catapult holds the projectile for 2 seconds before releasing what is the average force delievered by the catapult?

The keep itself is located 75 meters inside the castle wall while the catapult is 50 meters outside the castle wall. Determine the initial velocity (speed & angle with respect to the horizontal) of the projectile if it is to just clear the castle wall and impact the keep.

Remember the wall is 12 meters high.

Welcome to the PF. Per the Rules link at the top of the page, you must show your attempt at a solution before we can offer tutorial help. You are also supposed to use the Homework Help template that you are provided when starting a new thread here.

Show us the relevant equations, and your attempt at a solution.
 
Oops...sorry about that.

*Given Information*

1.) mass of 200 kg

2.) t = 2 sec

3.) change in Y1 = 12 m

4.) X1 = 50 m, X2 = 75 m, total X of 125 m*Formulas*

1.) (change in Y) = V(init)^2 sin^2(theta)/2g -------> theta = tan-1[(4*(change in y))/x]

2.) x = 2V(init)sin(theta)cos(theta)/g

3.) F = ma + mg

*Solution*

1.) To find angle to get projectile over wall...

theta = tan-1(change in y/x)
= tan-1(12/50)
= 13.5 degrees

2.) To find height of highest point...

tan 13.5 degrees = h/62.5 m
h = 15 m

3.) New angle...

theta = tan-1[(4*change in y)/x]
= tan-1[(4*15m)/125 m]
= 25.6 degrees

4.) Initial velocity at above angle...

V(init)^2 = xg/2sin(theta)cos(theta)
V(init) = square root of (xg/2sin(theta)cos(theta))
= square root of [(125 m(9.8 m/s^2))/2(sin25.6 degrees)(cos 25.6 degrees)
= 39.78 m/s at 25.6 degrees

5.) Average force of catapult...

a = v/t
= 39.78/2s
= 19.89 m/s

F = ma + mg
= 200 kg(19.89 m/s) + 200 kg(9.81 m/s^2)
= 5940 N
 

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