Hamiltonian Mechanics: Constants of Motion & Calculation

iori1234599 · Sep 16, 2010

1. A particle of mass m is in the environment of a force field with components: F_z=-K_z, F_y=F_x=0 for some constant K. Write down the Hamiltonian of the particle in Cartesian coordinates .What are the constant of motion?

2. H=kinetic energy +potential energy

3. Is the Hamiltonian H is just E= int(-K)dz = -Kz??
Also, I would like to ask what is the meaning of the constant of motion?? I really don't know where to start .

That is the first time that I deal with the Hamiltonian Mechanics. I don't sure how to do the problem.

vela · Sep 16, 2010

No, that's not the Hamiltonian. The Hamiltonian, as you noted, can be written as the sum of the kinetic and potential energies. The kinetic energy is just 1/2 mv², which you will want to express in terms of the components of the particle's momentum. For the potential energy, you want to find the function V(x,y,z) such that F = -∇V.

A constant of motion is simply a conserved quantity. If you write down Hamilton's equations for your Hamiltonian, you'll find the time derivative of two variables is equal to 0. Those two variables are therefore constant.

Hamiltonian Mechanics: Constants of Motion & Calculation

1. What is Hamiltonian mechanics?

2. What are constants of motion in Hamiltonian mechanics?

3. How are constants of motion calculated in Hamiltonian mechanics?

4. What is the significance of constants of motion in Hamiltonian mechanics?

5. Can constants of motion be used to simplify complex systems in Hamiltonian mechanics?

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