Momentum and penetration depth

In summary, the conversation discusses the derivation of relativistic momentum from the penetration depth of a bullet in a resistive media. It is mentioned that classical mechanics is more suitable for bullets due to their large mass and low velocity. The problem also involves energy transfer and the properties of the resistive material. A thread on Physics Forums is recommended for further discussion on the issue of terminal ballistics and stopping power. Finally, it is noted that momentum is a function of shear stresses, density, and bullet mass. The problem has pedagogic value in terms of understanding the invariance of the y component of momentum.
  • #1
bernhard.rothenstein
991
1
Many textbooks derive the relativistic momentum from the penetration depth of a bullet in a resistive media, considering that momentum is proportional with the penetration depth. Do you know a transparent and correct way to the problem?
 
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  • #2
Bullets are of such relatively large mass and low velocity that relativistic mechanics does not apply, rather classical mechanics is appropriate.

The problem is one of energy transfer as well as momentum, and the actual problem is not so simple in general. It is relatively simple, and more a matter of the properties of the resistive material, e.g. density and viscosity, if the bullet does not deform, although bullet shape and diameter would be a factor.

See - http://www.angelfire.com/art/enchanter/terminal.html (bad link to physics forums archives)

There is a thread on Physics Forums that addresses this issue of terminal ballistics and stopping power.

Momentum is just the rate of change of force, and that is a function of the shear stresses, as well as the density of the resistive media and mass of the bullet.
 
  • #3
thanks

thanks for your answer. The problem has a pedagogic value, because if the penetration is proportional to the momentum then an y penetration ensures the invariance of the y component of the momentum.
 

What is momentum?

Momentum is a fundamental concept in physics that describes the quantity of motion an object has. It is defined as the product of an object's mass and velocity.

How is momentum calculated?

Momentum is calculated by multiplying an object's mass (m) by its velocity (v), using the formula p = mv.

What is penetration depth?

Penetration depth, also known as skin depth, is a measure of how far an electromagnetic wave can penetrate into a material before its amplitude decreases by a certain factor. It is dependent on the properties of the material and the frequency of the wave.

How is penetration depth related to momentum?

Penetration depth is related to momentum through the conservation of momentum principle. When an object with momentum collides with a material, its momentum is transferred to the material, causing it to penetrate to a certain depth depending on its properties.

What factors affect momentum and penetration depth?

The factors that affect momentum and penetration depth include the mass and velocity of the object, the properties of the material, and the frequency of the electromagnetic wave. Other factors such as angle of incidence and surface roughness can also play a role.

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