Understanding Engineering Mathematics

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Exercise on 13.6


Where possible, solve the systems of Exercise 13.5 using the inverse matrix.


Answer


See answer to Exercise 13.5.


13.7 Eigenvalues and eigenvectors


Consider the system of equations


3 x+ 2 y= 0
6 x+ 4 y= 0

Note that the determinant of coefficients of the left-hand side is
∣∣


32
64

∣∣

∣=^0

If either of the right-hand sides was non-zero this would mean the system has no solution.
However, when the right-hand sides are all zero, we say the system ishomogeneous,and
in this case thereisthe possibility of a solution. In fact, cancelling 2 from the second
equation reveals that the equations are the same – we really only have one equation:


3 x+ 2 y= 0

Thishas an infinite number of solutions – choose any value ofy,y=s,thentakexas



2
3

s.
In fact, in the homogeneous case it is essential for a non-trivial solution that the
determinant of the coefficients is zero. We can generalise this. Returning to the original
motivation for the inverse matrix, remember that we wanted to solve


Au=b

by multiplying byA−^1 :


A−^1 (Au)=(A−^1 A)u=Iu=u
=A−^1 b.

So we have to insist in this case on|A|=0, ifb= 0. On the other hand, ifb= 0 ,and
we have thehomogeneous system


Au= 0

then ifAis non-singular we only get thetrivial solutionu= 0. It is called trivial because
if it were, say, to correspond to a physical dynamical system then it would represent
the state of zero motion – no activity. In the case of homogeneous systems, weonlyget

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