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It descripts a system using the energy concept. The total energy of the system, which is the sum of kinetic energy and potential energy. Its formula often looks like H = T + V, where T represents kinetic energy and V represents potential energy.

Both the quantum mechanics and molecular dynamics have shared a similar concept.

In structural mechanics, we use the virtual method to calculate the hyperstatic structure to determine displacements in a structure, given forces acting on the structure. Another kind of Hamiltonian.

discuss

tekla|1 year ago

I'm classically educated on fluids so asking me to deviate from Newtonian mechanics for viscous fluids is ... difficult.

Nothing against this tho, I just don't have the foundation for this.

spenczar5|1 year ago

I am curious about what you mean by “classically educated.” In my undergrad physics education, computing Hamiltonians was pretty much an entire semester of classical mechanics in my junior year.

We didn’t really touch fluids though. Does “classical” mean something different there?

comment_ran|1 year ago

I still remember in high school, we only need two or three equations to solve a free-fall problem. In another book, basically the same question, but someone uses Hamiltonian framework to solve really complex PDEs and couple pages with those crazy equations to basically solve the same thing, and eventually got the same results.

I still remember that was mind-blowing. High school physics is so simple, whereas the Hamilton is so complex. I later on notice that Hamilton is kind of a more standard way to solve the problem. Never mind, I'm not an expert on it, but I'm just kind of amazed by the Hamiltonian mechanics.