Mathematical Methods for Physics and Engineering : A Comprehensive Guide

(Darren Dugan) #1

27.3 SIMULTANEOUS LINEAR EQUATIONS


contain non-zero entries. Such matrices are known as tridiagonal matrices. They


may also be used in numerical approximations to the solutions of certain types


of differential equation.


A typical matrix equation involving a tridiagonal matrix is as follows:

0


b 1 c (^10)
b 2 c 2
b 3 c 3
bN
a 2
a 3
aN–1
aN


...


x 1

x 2

x 3

...


xN–1

xN

y 1

y 2

y 3

...


yN–1

yN

=

bN–1cN–1

......


(27.30)

So as to keep the entries in the matrix as free from subscripts as possible, we


have useda,bandcto indicate subdiagonal, leading diagonal and superdiagonal


elements, respectively. As a consequence, we have had to change the notation for


the column matrix on the RHS frombto (say)y.


In such an equation the first and last rows involvex 1 andxN, respectively, and

so the solution could be found by lettingx 1 be unknown and then solving in turn


each row of the equation in terms ofx 1 , and finally determiningx 1 by requiring


the next-to-last line to generate forxNan equation compatible with that given


by the last line. However, if the matrix is large this becomes a very cumbersome


operation, and a simpler method is to assume a form of solution


xi− 1 =θi− 1 xi+φi− 1. (27.31)

Since theith line of the matrix equation is


aixi− 1 +bixi+cixi+1=yi,

we must have, by substituting forxi− 1 ,that


(aiθi− 1 +bi)xi+cixi+1=yi−aiφi− 1.

This is also in the form of (27.31), but withireplaced byi+1. Thus the recurrence


formulae forθiandφiare


θi=

−ci
aiθi− 1 +bi

,φi=

yi−aiφi− 1
aiθi− 1 +bi

, (27.32)

provided the denominator does not vanish for anyi. From the first of the matrix


equations it follows thatθ 1 =−c 1 /b 1 andφ 1 =y 1 /b 1. The equations may now


be solved for thexiin two stages without carrying through an unknown quantity.


First, all theθiandφiare generated using (27.32) and the values ofθ 1 andφ 1 ,


then, as a second stage, (27.31) is used to evaluate thexi, starting withxN(=φN)


and working backwards.

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