Applications of Systems of Equations 429Translating the critical point (1, 1) to the origin by letting X = x - 1 and
Y = y - 1 , we are lead to consider the stability characteristics at (0, 0) of the
linear systemX'=-Y
Y'=-X.
The eigenvalues of this system, which are the eigenvalues of the matrixA=( 0 -1)
-1 0are >-1 = 1 > 0 and >-2 = -1 < 0. From Table 10.l the origin is an unstable
saddle point of this linear system; and, therefore, the critical point (1, 1) is an
unstable saddle point of the nonlinear system ( 11).
We used a computer software program to produce the direction field shown
in Figure 10.8a for
dy y' y-xy
dx x' x - xyon the rectangle R = {(x, y)I - 1.5::::; x::::; 2.5 and - 1.5::::; y::::; 2.5}. From
this direction field and the stability properties of system (11) at the critical
points (0, 0) and (1, 1), we were able to sketch the phase-plane portrait shown
in Figure 10.8b for the nonlinear system (11).
2y0-1I I I I I I I \ '-......, __ ..- / / / / /
I I I I JI 1
1I \ '---...--,.,.,,,,, / / / / /
I I I I \ '-.. ,,,.,.,,,,, / / / / /
/Jill \'-'----//////
~~1
l1
l1~=;jjj~
! l
)
\ "'.-/I I I I I I
I \ / I I I I I I I
//-,,\\\\\
\\\\\\ // ___ .._,,,,,-~~.._,,, "'''\\\ /--//~ ---------
/
___ .,..,,_-,.,.,,,,,/I,-.---~~~----,...,.,,,.,,,.,.,.,,,,,,.,.,,,,, / / I '-----~~~-----------
/ / / / / / I \ -....... ---------------
//////I ,,__ ------
/////// \'- -----
/////I I \ ,--....---------------
/ / / / / / / ,,~ ~------1 0 2
xFigure 10.8a Direction Field for System (11)