Calculate Force of Bullet Shot Against Wall: v, m

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    Bullet Force
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Discussion Overview

The discussion revolves around calculating the force exerted by a bullet when it strikes a wall, given its velocity and mass. Participants explore various approaches to this problem, including theoretical considerations and assumptions about the bullet's behavior upon impact.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • Some participants propose using the formula for force as mass times acceleration, suggesting that if the bullet does not deform, one could graph deceleration versus time to determine force over time.
  • Others argue that additional details about the wall's material and structure are necessary for an accurate calculation, questioning the utility of force as a concept in advanced physics.
  • A participant suggests that knowing the time taken for the bullet to come to rest is essential for calculating average force, framing it within the context of a one-dimensional collision.
  • Another viewpoint emphasizes that kinetic energy can be calculated from mass and velocity, but the force depends on the distance the bullet penetrates the wall, introducing the concept of averaged force over the deceleration path.
  • One participant mentions that if the bullet stops immediately upon impact, the force can be expressed as the change in momentum over time, although measuring the time may pose challenges due to the rapid nature of the event.

Areas of Agreement / Disagreement

Participants express differing views on the necessary parameters for calculating force, the relevance of force in physics, and the assumptions about the bullet's interaction with the wall. No consensus is reached on a single method or approach.

Contextual Notes

Limitations include the dependence on assumptions about the bullet's deformation, the wall's properties, and the measurement of time during the impact. The discussion does not resolve these complexities.

pixel01
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How can I calculate the force of a bullet shot against a wall if the velocity v and mass m are given?
 
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pixel01 said:
How can I calculate the force of a bullet shot against a wall if the velocity v and mass m are given?

Force = mass x acceleration, right? If the bullet doesn't deform as it stops, then you just need to graph the deceleration versus time, and that will net you the force versus time with a little math.

Is this homework? If so I should move it to Homework Help, Intro Physics.
 
berkeman said:
Force = mass x acceleration, right? If the bullet doesn't deform as it stops, then you just need to graph the deceleration versus time, and that will net you the force versus time with a little math.

Is this homework? If so I should move it to Homework Help, Intro Physics.

This is not homework A similar scenario is how can I estimate the force of a hammer when you hit a nail into the wall.
 
No. You need to know many details about the wall, like the material, the structure, the density, and so on to make a calculation.

But why do you want to know the force? Force is not a very useful concept.
Actually, in advanced/modern physics, force is of little importance.

<< commercial website link removed by berkeman >>
 
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pixel01 said:
How can I calculate the force of a bullet shot against a wall if the velocity v and mass m are given?
I think you'll need more information that just the initial momentum (P). If you had the time (t) taken for the bullet to come to rest you could treat it as a simple 1-D collision:

change in P = average force (F) * t
 
pixel01 said:
How can I calculate the force of a bullet shot against a wall if the velocity v and mass m are given?
The mass and velocity only give you kinetic energy: E=m*v^2/2
The force is not yet determined, since it depends on the length of the path of deceleration. Let's say that a bullet does not deform itself and penetrates a distance of s into the wall. Then the force (averaged over the deceleration path) is F=E/s=m*v^2/(2s). A hard wall will stop the bullet faster (smaller s) and produce greater force. (however the force comes before acceleration, so it would be more consistent to say that a hard wall will act with a greater force and so stop the bullet faster).
If the wall is very hard (bullet deformation is comparable or larger than wall deformation), then one should take the wall penetration depth+bullet deformation for s (although the exact calculation would be more difficult, since this is no longer a rigid body movement).
 
For a nice simple answer, use the fact that force is the rate of change of momentum.

F=(mv-mu)/t

if you assume that the bullet stops immediately when it hits the wall, then its final velocity is 0. Therefore the force F=mv/t.

Although there might be a bit of difficulty in measuring t since the bullet stops almost instantaneously.
 

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