Analytical Mechanics: bullet fired from gun problem

AI Thread Summary
To solve the problem of a bullet fired from a recoiling gun, it's essential to apply the principle of conservation of momentum. The bullet's velocity relative to the ground is expressed as v/(1+b), while the gun's recoil velocity is -bv/(1+b), with b defined as the mass ratio m/M. Understanding that there is no collision involved but rather a momentum transfer is crucial for solving the problem. The discussion emphasizes the importance of recognizing momentum conservation in analyzing the dynamics of the bullet and gun system.
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I am not quite sure how to start this problem:

A bullet of mass m is fired from a gun of mass M. If the gun can recoil freely and the muzzle velocity of the bullet is v. Show that the actual velocity of the bullet relative to the ground is v/(1+b) and the recoil velocity from the gun is -bv/(1+b), where b = m/M.

Any ideas? I understand that the velocity of the bullet with respect to the ground is equal to the velocity of the bullet with respect to the gun plus the velocity of the gun with respect to the ground. Is there some kind of a collision here?

thanks
 
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There is no collision but you have to realize that momentum has to be conserved, so you would treat it like any other conservation of momentum collision problem.
 
thanks a lot, i worked it out
 
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Thread 'Help with Time-Independent Perturbation Theory "Good" States Proof'

(Disclaimer: this is not a HW question. I am self-studying, and this felt like the type of question I've seen in this forum. If there is somewhere better for me to share this doubt, please let me know and I'll transfer it right away.) I am currently reviewing Chapter 7 of Introduction to QM by Griffiths. I have been stuck for an hour or so trying to understand the last paragraph of this proof (pls check the attached file). It claims that we can express Ψ_{γ}(0) as a linear combination of...
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