How is kinetic energy related to momentum in terms of velocity?

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Kinetic energy is mathematically related to momentum through differentiation with respect to velocity, where the derivative of kinetic energy yields momentum. This relationship can be explained by integrating Newton's laws, linking kinetic energy to changes in momentum as velocity varies. The discussion highlights the connection between energy conservation and these fundamental principles of physics. Advanced concepts such as conjugate momentum in Lagrangian and Hamiltonian mechanics further elaborate on this relationship. Understanding these dynamics is essential for grasping the interplay between kinetic energy and momentum.
xiankai
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if you differentiate kinetic energy wrt. to velocity, you will get momentum as the result.

what i wanted to ask is that, how can this physically explained? that kinetic energy can be viewed as the rate of change of momentum for a change in velocity? is there any analogy?
 
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The derivation of energy conservation is where this comes from. You start with Newton's laws, then integrate basically with respect to the velocity, and what comes out is the kinetic energy on the ma side and potential energy on the other side. That's why it comes out that way.
 

Thread 'Derivation of Hamilton's Principle: Questions'

I have recently been really interested in the derivation of Hamiltons Principle. On my research I found that with the term ##m \cdot \frac{d}{dt} (\frac{dr}{dt} \cdot \delta r) = 0## (1) one may derivate ##\delta \int (T - V) dt = 0## (2). The derivation itself I understood quiet good, but what I don't understand is where the equation (1) came from, because in my research it was just given and not derived from anywhere. Does anybody know where (1) comes from or why from it the...
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