Conservation of Momentum and Lagrangian

In summary, Leonard Susskind explains that if the Lagrangian of a system of particles is invariant under simultaneous translation of all particle positions, then the momentum of the system is conserved. He demonstrates this by proving that the total momentum of a two-particle system under a potential function dependent on the separation between particles is conserved through symmetry. This is equivalent to Newton's law stating that the total momentum of a two-particle system is conserved if there is no external force acting on it. By rewriting the Lagrangian as a function of the center of mass position and separation, it is clear that there is no potential term related to the center of mass position, thus no external force acting to change the motion of those coordinates.
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Ananthan9470
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In Leonard Susskind's the theoretical minimum, he says, "For any system of particles, if the Lagrangian is invariant under simultaneous translation of the positions of all particles, then momentum is conserved". For a system of two particles moving under a potential which is a function of the separation between the particles, he goes on proving that the total momentum will be conserved using symmetry. We know that the total momentum of a two particle system will be conserved if there is no external force acting on it from Newton. I am trying to understand how 'simultaneous translation of the positions of all particles' and 'potential is a function of the separation between the particles' is equivalent to saying there is no external force acting on the system. Any pointer will be helpful. Thanks!
 
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  • #2
You can rewrite the Lagrangian as a function of the CoM position and the separation. Naturally, there will be no potential term related to the CoM position and therefore the derivative of the potential wrt CoM position is zero, i.e., no force acting to change the motion of those coordinates.
 
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Related to Conservation of Momentum and Lagrangian

What is conservation of momentum?

Conservation of momentum is a fundamental principle in physics that states that the total momentum of a closed system remains constant over time, regardless of any internal or external forces acting on the system. This means that the total momentum before an event must be equal to the total momentum after the event.

What is the law of conservation of momentum?

The law of conservation of momentum is a mathematical representation of the principle of conservation of momentum. It states that the total momentum of a closed system is constant, or conserved, over time. This law is a direct consequence of Newton's third law of motion.

What is Lagrangian mechanics?

Lagrangian mechanics is a mathematical framework used to describe the motion of particles and systems in classical mechanics. It is based on the principle of least action, where the path taken by a particle is the one that minimizes the action integral (the sum of kinetic and potential energies) over time.

How is conservation of momentum related to Lagrangian mechanics?

Conservation of momentum is a fundamental principle in Lagrangian mechanics. The equations of motion derived from the Lagrangian are based on the principle of conservation of momentum, which states that the total momentum of a system remains constant over time.

What are some applications of conservation of momentum and Lagrangian mechanics?

Conservation of momentum and Lagrangian mechanics are used in many areas of physics and engineering, such as celestial mechanics, fluid dynamics, and control systems. They are also fundamental principles in understanding collisions, motion of rigid bodies, and the behavior of particles in electromagnetic fields.

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