Solving Catapult Physics Homework with Simple Mechanics Equations

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Simple mechanics equations can effectively describe the physics of a catapult, focusing on force, acceleration, speed, and distance. Key formulas include basic projectile motion equations, such as range = v(x) * time, and the kinematic equations for vertical motion, which account for gravity. Conservation of energy can be applied if air friction is neglected, and conservation of momentum is useful for analyzing the relative movements between the catapult and the projectile. The discussion emphasizes the importance of understanding these equations to solve the homework problem effectively. Utilizing these principles will aid in accurately modeling the catapult's mechanics.
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Homework Statement



How simple mechanics equations can be used to describe force, acceleration, speed, distance, etc. of a catapult.

Homework Equations



This is my question. I have the time and distance traveled already, I'm hoping for some help as to what formulas to use. I don't need them filled out for me, just some suggestions as to what formulas will describe which parts

The Attempt at a Solution



Not necessary, just some general formula help...I am fine with formulas and explanations based on formulas once I get them, but my formulas were all in my physics book, which I no longer have.
 
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do u mean the catapult itself or the thing it throws?
 
The projectile being thrown.
 
if u neglect air friction u can use consevation of energy,

then u have the basic projectile equations which are similar to one dimensional kinematics equatios:

range = v(x) * time
[v(y)(final)]^2 = [v(y)(initial)]^2 + 2*g*h
delta y= [v(y)(initial)]*t + (g*t^2)/2
and u can always use x=v*t

u can also use conservation of the momentum for relative movements of the projectile and the catapult itself
 

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