The motion of a particle is described by the formula F = .

Context: Newton's Laws

In the Euler-Lagrange equation, the term L represents the .

Context: Lagrangian Mechanics

Hamilton's equations are a reformulation of classical mechanics using .

Context: Hamiltonian Mechanics

The first law of thermodynamics states that dU = dQ + .

Context: Thermodynamics

Maxwell's equations describe the laws of .

Context: Electromagnetism

The equation pV = RT is known as the .

Context: Statistical Physics

The entropy of a system at absolute zero is .

Context: Thermodynamics

The Lorentz transformation is used to relate coordinates in different .

Context: Special Relativity

The Boltzmann equation describes the probability of a state as Pj = e^(-βEj) / .

Context: Statistical Physics

The force on a charge moving in an electromagnetic field is given by the .

Context: Electromagnetism