Toy Cannon: Calculating the Projectile Speed

AI Thread Summary
A toy cannon projects a 5.30g rubber ball using a spring compressed by 5.00 cm, with a spring constant of 8.00 N/m and a friction force of 0.0320 N. The initial calculations led to a projectile speed of 1.17 m/s, which differed from the expected 1.40 m/s. The discrepancy arose from the incorrect application of the friction force over the total distance traveled in the barrel. Correcting the formula to account for friction only over the distance of spring compression yields the accurate speed. The discussion highlights the importance of precise calculations in physics problems.
Dorothy Weglend
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A toy cannon uses a spring to project a 5.30g soft rubber ball. Spring is compressed 5.00 cm, k=8.00 N/m. Barrel is horizontal.

The ball moves 15.0 cm through the barrel, with friction force of 0.0320 N between thebarrel and the ball. With what speed does the projectile leave the barrel of the cannon?

I thought this problem was simple, but the answer 'in the back' is different from what I am getting, so I thought I would ask for some help.

I use

mv^2/2 = kx^2/2 - fk(x+d)

x = compression of spring, d = distance along the barrel, so

m = 5.32 * 10^-3 m,
k = 8 N/m
x = 0.05 m
k = 8 N/m
fk = 0.032 N
d = 0.15 m

With these figures, I get v = 1.17 m/s.

The answer in the back is 1.40 m/s.

Can anyone see where I am going wrong?

Dorothy
 
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Are you sure you are supposed to use ... - fk(x+d)?
if you use mv^2/2 = kx^2/2 - fk(x) instead, it will give a v of 1.40 m/s
I think the problem was trying to help you-it gave you the TOTAL distance the projectile has to travel in the barrel. I tried to make a diagram below, I'm not sure it worked.

Oh, and you meant m=5.30 x 10-3 kg right?

/\/\/ is the compressed spring
X is the projectile...|-0.15m-|
-------------
/\/\-X---->
-------------
 
Last edited:
That makes sense. Thanks. Yes, I used 5.30E-3.

Thanks again,
Dorothy
 

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