Penetration of Bullet in Concrete Wall: Physicsal Analysis

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The discussion revolves around the physics of bullet penetration in concrete walls, focusing on kinetic energy loss during penetration. A bullet traveling at 200 m/s penetrates 0.1 m into the wall, prompting questions about energy dissipation and the effects of increased speed on penetration depth. For a bullet moving at 240 m/s, the exact penetration distance is uncertain without additional data on the stopping force. The retarding force exerted by the wall on a bullet with a mass of 0.01 kg can be calculated using the relationship between kinetic energy, force, and distance. Overall, the analysis emphasizes the need for understanding the underlying physics principles to solve these problems effectively.
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In police practice, bullets od identical mass are fired towards a concrete qall at different speed. It is found that a bullet traveling horizontally at 200m per second can penetrate the wall by a distance of 01.m.

1.In penetrating the wall, the kinetic energy of the bullet decreases. Account for this
'energy loss'.

2.What distance can another bullet of the same mass moving at 240m per second penetrate
in the wall?

3.Mass of a bullet is found to be 0.01 kg. What is the magnitude of retarding force applied
to the bullet by the wall to stop it?

Thank You For Your answer.
 
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Asking for the answer will not get you any where with most people on this board. Read the sticky at the top of this form if you have already. If we do not see what work you have already done then we can not tell where you are misunderstanding things. Most every one here is busy and don’t have time to other peoples homework.

Write down the equation of motion(i.e. F = ma = ?) the wall. Since the problem did not mention gravity I would ignore it. This is a second order differential equation. Since this is a drag problem the bullets position will asymptotically approach a position in the wall.

Solve the above equation will give you the general solution for drag problems. Use the fact that "200m per second can penetrate the wall by a distance of 01.m." to fix the unknown variables in the problem.
 
reggie said:
In police practice, bullets od identical mass are fired towards a concrete qall at different speed. It is found that a bullet traveling horizontally at 200m per second can penetrate the wall by a distance of 01.m.

1.In penetrating the wall, the kinetic energy of the bullet decreases. Account for this
'energy loss'.
In what form can the kinetic energy be dissipated? Where can it go?

2.What distance can another bullet of the same mass moving at 240m per second penetrate
in the wall?
We aren't given enough information. We could assume that the stopping force is constant, but we don't really know that. If one assumes that it is constant, what is the work done by the bullet to the wall? Where does that ability to do work come from?

3.Mass of a bullet is found to be 0.01 kg. What is the magnitude of retarding force applied to the bullet by the wall to stop it?
What is the relationship between kinetic energy and force and distance? Work out force from that.

AM
 
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