Partial differential equations are ubiquitous in science, as they describe phenonena such as fluid flow, gravitational fields, and electromagnetic fields. They are important in fields such as aircraft simulation, computer graphics, and weather prediction. The central equations of general relativity and quantum mechanics are also partial differential equations.
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for the unknown function u(x,y,z). Solutions to this equation, known as harmonic functions, serve as the potentials of vector field in physics, such as the gravitational or electrostatic fields.
A generalization of Laplace's equation is Poisson's equation:-
where f(x,y,z) is a given function. The solutions to this equation describe potentials of gravitational and electrostatic fields in the presence of masses or electrical charges, respectively.
Its solutions describe waves such as sound or light waves; c is a number which represents the speed of the wave. In lower dimensions, this equation describes the vibration of a string or drum. Solutions will typically be combinations of oscillating sine waves.
Solutions will typically "even out" over time. The number k describes the heat conductivity[?] of the material.
The Schrödinger equation is a PDE at the heart of quantum mechanics.
All the above equations are linear in the sense that they can be written in the form Au = f for a given linear operator A and a given function f. Important non-linear equations include the Navier-Stokes equations describing the flow of fluids and Einstein's field equations of general relativity.
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