How Does Wood Resistance Affect Bullet Penetration and Stoppage Time?

AI Thread Summary
The discussion centers on calculating the resistive force exerted by wood on a bullet and the time it takes for the bullet to come to rest after penetrating the wood. The resistive force was confirmed to be 4700 N, leading to an acceleration of -471154 m/s². The time for the bullet to stop after entering the wood was calculated as approximately 0.000743 seconds. There is confusion regarding the relevance of the time spent in the barrel, with some participants questioning whether it affects the overall stopping time. Ultimately, the focus is on understanding the dynamics of bullet penetration and the impact of wood resistance.
TylerK
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Homework Statement



A rifle with a barrel length of 56 cm fires a 10 g bullet with a horizontal speed of 350 m/s. The bullet strikes a block of wood locked in position and penetrates to a depth of 13 cm.

What resistive force (assumed to be constant) does the wood exert on the bullet?

How long does it take the bullet to come to rest?

Homework Equations



f = m * a
d = v * t
vf = vi + a * t

The Attempt at a Solution



Force of wood on bullet = 4700 (was confirmed correct)
f = m * a
a = -471154 N

How long does it take the bullet to come to rest?

I tried
D = v * t1 for the barrel
.55 = 350 * t1
t1 = 350 / .55 = .0016 seconds

For the wood
vf = vi + a * t2
0 = 350 - 471154 t2
t2 = 350 / 471154 = .000743 seconds

t1 + t2 = .002343 seconds which is wrong.
 
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If the barrel was twice longer, would it change time needed to stop the bullet?

You wrote

TylerK said:
a = -471154 N

Are you sure N is a correct unit of acceleration?
 
Yes it is m/s^2 I mistakenly typed N. I tried to brake the problem up into 2 parts.

Part 1: Time of bullet in barrel, with 0 acceleration so

d = v * t
.56m = 350 m / s * t
t = .56 m * s / 350 m = .0016 seconds

Part 2: Time it enters the wood until the bullet stops.

vf =vi + a * t
0 = 350 m/s + (-471154 m / s^2) t

-350 m/s * (1/-471154 m/s^2) = t
t = .000743 seconds

I apparently do not add these 2 times together, as the combined result is incorrect.

If the barrel was twice as long, wouldn't it double the amount of time the bullet was in the barrel, as accounted for in the first part? (assuming no friction in the barrel)
 
You are missing the point.

Is the time spent in the barrel in any way relevant?
 
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