Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

20.1 IMPORTANT PARTIAL DIFFERENTIAL EQUATIONS


The second term,f(r,t), represents a varying density of heat sources throughout


the material but is often not required in physical applications. In the most general


case,k,sandρmay depend on positionr, in which case the first term becomes


∇·(k∇u). However, in the simplest application the heat flow is one-dimensional


with no heat sources, and the equation becomes (in Cartesian coordinates)


∂^2 u
∂x^2

=


k

∂u
∂t

.

20.1.3 Laplace’s equation

Laplace’s equation,


∇^2 u=0, (20.5)

may be obtained by setting∂u/∂t= 0 in the diffusion equation (20.2), and


describes (for example) thesteady-statetemperature distribution in a solid in


which there are no heat sources – i.e. the temperature distribution after a long


time has elapsed.


Laplace’s equation also describes the gravitational potential in a region con-

taining no matter or the electrostatic potential in a charge-free region. Further, it


applies to the flow of an incompressible fluid with no sources, sinks or vortices;


in this caseuis the velocity potential, from which the velocity is given byv=∇u.


20.1.4 Poisson’s equation

Poisson’s equation,


∇^2 u=ρ(r), (20.6)

describes the same physical situations as Laplace’s equation, but in regions


containing matter, charges or sources of heat or fluid. The functionρ(r)is


called the source density and in physical applications usually contains some


multiplicative physical constants. For example, ifuis the electrostatic potential


in some region of space, in which caseρis the density of electric charge, then


∇^2 u=−ρ(r)/ 0 ,where 0 is the permittivity of free space. Alternatively,umight


represent the gravitational potential in some region where the matter density is


given byρ;then∇^2 u=4πGρ(r), whereGis the gravitational constant.


20.1.5 Schrodinger’s equation-

The Schr ̈odinger equation



^2
2 m

∇^2 u+V(r)u=i

∂u
∂t

, (20.7)
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