How far into the block does the arrow penetrate?

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In summary, the arrow fired at 20.0 m/s with a deceleration of 1550 m/s^2 and the block accelerating at 450 m/s^2 will come to a stop relative to the block in 0.01 seconds. At this point, the common speed of the arrow and block will be 4.5 m/s. The arrow will penetrate the block by 0.1 meters before coming to a stop.
  • #1
Zippy
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An arrow is fired with a speed of 20.0 m/s at a block of Styrofoam resting on a smooth surface. The arrow penetrates a certain distance into the block before coming to rest relative to it. During this process the arrow's deceleration has a magnitude of 1550 m/s^2 and the block's acceleration has a magnitude of 450 m/s^2.
a) how long does it take for the arrow to stop moving with respect to the block?
b) what is the common speed of the arrow and the block when this happens?
c) how far into the block does the arrow penetrate?
 
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  • #2
You know that the block is accelerating as the arrow is decelerating, and at some time t they reach the same final velocity v. Use this to write down two equations involving initial velocity, acceleration or deceleration, and time. The left hand side of the two equations is v, you can forget about that for now. But that means the right hand side of the two equations equal one another, and you can use that to work out t.

That gives you a) and you can work out the rest from there.
 
  • #3
Welcome to PF, Zippy.

You need to show what you've done, or your ideas on how to solve the problem, before we can help you.
 
  • #4
neutrino: sorry, we overlapped there.

zippy: the idea is to give you help and encouragement, but not to do it all for you.
 
  • #5
Thanks for the help. I think I've got (a) and (b), but I'm not sure how to approach (c).

This is what I've got so far:

(a) vi1+a1t=vi2+a2t
20-1550t=0+450t
2000t=20
t=0.01s

(b) v=vi2+a2t
v=0+450*0.01
v=4.5 m/s

Can you tell me if these are correct?
 
  • #6
Farsight said:
neutrino: sorry, we overlapped there.
That's not a problem. :)

zippy: the idea is to give you help and encouragement, but not to do it all for you.
That's right. :D
 
  • #7
Could someone give me a hint for (c)? I really have no idea where to start.
 
  • #8
For (c), if I start plugging in numbers into x=(v^2-vi^2)/(2a), I get x1=0.1225 m and x2=0.0225 m. The difference is 0.1 m, so is that how far the arrow penetrates the block?
 
  • #9
You can make c) simpler. Ask yourself how much the arrow decelerated, in what time, and at what rate.
 
  • #10
Hey Zippy, I followed the same reasoning you did and got the same answer, but could I get some confirmation if it's right or if there was some flaw in the reasoning?
 

Related to How far into the block does the arrow penetrate?

1. How is the penetration depth of an arrow into a block measured?

The penetration depth of an arrow into a block is typically measured by marking the arrow with a known length and then measuring the distance it has penetrated into the block.

2. What factors affect the penetration depth of an arrow into a block?

The main factors that affect the penetration depth of an arrow into a block include the velocity of the arrow, the mass and shape of the arrow, and the material and density of the block.

3. Does the angle of impact affect the penetration depth of an arrow into a block?

Yes, the angle of impact can significantly affect the penetration depth of an arrow into a block. A steeper angle of impact will result in less penetration, while a more direct angle will result in deeper penetration.

4. Can different arrow tips affect the penetration depth into a block?

Yes, different arrow tips can have a significant impact on the penetration depth into a block. Broadhead tips, for example, are designed to create a wider wound channel and may penetrate deeper compared to field points.

5. How does the density of the block affect the penetration depth of an arrow?

The density of the block can greatly affect the penetration depth of an arrow. A denser block will provide more resistance, resulting in less penetration, while a less dense block will offer less resistance, allowing for deeper penetration.

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