Roots of a polynomial with variables

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Lewis Fer il 15 Giu 2021

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Commentato: Lewis Fer il 16 Giu 2021

For some problems, we have to to study some notions of stablility and zero polynomials in two variables, my que'stion how we can find the roots or zero polynomials in two variables. for example:

P(x,y)=3*xy -5y^2+7*x^2y

or a nother polynom

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Sulaymon Eshkabilov il 15 Giu 2021

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One of the viable ways to solve such polynomial type equations is to setp up the solution space within which you are seeking the roots to compute and solve them using fzero(). E.g.:

x=linspace(-2,2):  % Choose the necessary solution space
for t=1:100
    EQ= @(y)(3*x(t)*y-5*y.^2+7*(x(t)^2)*y); 
    y_roots = fzero(EQ,0);
end

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Lewis Fer il 15 Giu 2021

but this method in reality doesn't making a difference to search and find th pole of some matrices like transfer function in two dimensional case

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Paul il 15 Giu 2021

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Don't know the scope of the actual problems of interest, but for the two examples in the question:

syms x y

sol = solve(3*x*y - 5*y^2 + 7*x^2*y == 0,[x y],'ReturnConditions',true);

[sol.x sol.y sol.conditions]

ans =

syms z1 z2

sol = solve(1 - z1*z2 - 1/2*z1^2 - 1/2*z2^2 + z1^2*z2^2 == 0,[z1 z2],'ReturnConditions',true);

[sol.z1 sol.z2 sol.conditions]

ans =

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Paul il 15 Giu 2021

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Apparently there are many solutions to this problem, i.e., many pairs (p,s) that make the determinant equal to zero. The pair (p,s) can be expressed as ( (z+2)/(z-4) , z) for z any number not equal to four. Check

A = [1 2;3 4];
p = @(z)((z+2)./(z-4));
s = @(z)(z);
z = 1;
det(diag([p(z) s(z)]) - A)
ans = -3.3307e-16
z = 8;
det(diag([p(z) s(z)]) - A)
ans = 0
z = 1 + 1i;
det(diag([p(z) s(z)]) - A)
ans = -1.3323e-15 + 3.3307e-16i