Find speed given mass, force, and distance

AI Thread Summary
To find the speed of an 88-g arrow fired from a bow with a force of 110 N over a distance of 78 cm, first calculate the acceleration using F=ma. The final velocity can be determined using the equation v^2 = u^2 + 2as, where initial velocity u is 0. Alternatively, the work-energy principle can be applied by calculating the work done (W=Fd) to find the kinetic energy and then using it to derive the speed. Both methods should yield the same result for verification. This approach emphasizes the relationship between force, mass, distance, and speed in projectile motion.
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1. An 88-g arrow is fired from a bow whose string exerts an average force of 110 N on the arrow over a distance of 78 cm. What is the speed of the arrow as it leaves the bow?
2. I'm completely lost, sorry!
 
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You know the force and mass of the arrow, so you can calculate the acceleration:

F=ma

then using equations of motion for constant acceleration, meaning the force providing the acceleration doesn't change throughout the motion.

v^2 = u^2 +2as,
v=final velocity, u = intial velocity=0, a=(f/m), s is distance over which the object is accelerated.

ill check your answers once you have applied yourself :).
 
DannyR's answer is right, but it's not the only possible way of solving the problem.

You could also use W=Fd to calculate the kinetic energy of the arrow, use the formula for kinetic energy as a function of velocity to get the speed. An easy way to check your work is to see if you get the same answer both ways.
 

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