Calculating Arrow Speed with Doubled Force | Newton's Law Problem

AI Thread Summary
An arrow leaves a bow at 29.5 m/s, and if the average force exerted is doubled, the resulting speed needs to be calculated. The initial approach of simply doubling the speed was incorrect, as acceleration must also be considered. The new acceleration, being double the initial, leads to a new velocity calculated through kinematic equations. The correct final speed of the arrow, factoring in the doubled force and unchanged distance, is determined to be 147.5 m/s. The discussion emphasizes the importance of understanding the relationship between force, acceleration, and velocity in this context.
ethrust2
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Homework Statement


An arrow, starting from rest, leaves the bow with a speed of 29.5 m/s. If the average force exerted on the arrow by the bow were doubled, all else remaining the same, with what speed would the arrow leave the bow?


Homework Equations



use a= v-vo/t and f=ma

The Attempt at a Solution



i tried to just multiply the speed by 2 but that's wrong... and the same speed is wrong too..
 
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F = ma
If the force doubled, then the acceleration must double, because the mass definitely can't double xD

So, that means the new acceleration is twice the initial acceleration. This doesn't mean the new velocity is twice the old velocity.

First, let's find the initial acceleration.
vf = vi + at
29.5 = 0 + at
ai = 59/t

The new acceleration is twice the initial acceleration, so
anew = (2*59)/t = 118/t
anew = = 118/t

Now, plugging that back into the equation:
vf = vi + at
vf = 29.5 + (118/t)*t ===> Note how the t cancels out
vf = 29.5 + 118
vf = 147.5 m/s
 
thanks so much man
 
Welcome to PF!

Hi Firecloak! Welcome to PF! :smile:

Sorry, but your method is completely wrong …

vi is still zero, not 29.5; and it isn't the same t. :redface:

Hi ethrust2! :wink:

The distance will be the same (exactly the same if it's a crossbow, and almost exactly if it's a longbow) …

so … using work done and conservation of energy … how does v depend on F? :smile:
 

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