Third-order polynomial equation which complex roots
이전 댓글 표시
Hi,
I want to plot the three roots of c (real and imaginary) as a function of k for the following third-order polynomial equation:
I am using fsolve to code it but this requires three initial guesses which are hard to identify for the given equation.
Any suggestions?
Thank you
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추가 답변 (2개)
Dyuman Joshi
2024년 2월 3일
이동: Matt J
2024년 2월 3일
0 개 추천
Define the polynomial as a function handle of the variable 'k' and use roots for different values of 'k'.
Also, note that you will need to plot the real and imaginary separately.
syms c k L
eqn = c^3 ...
- c^2*(2*k*exp(4*k*L) + 2*k*exp(2*k*L) + exp(4*k*L) - 6*k^2*exp(2*k*L) + 1) / (2*exp(2*k*L) * k * (exp(2*k*L)+1)) ...
- c*(-k*exp(4*k*L) + 2*k*exp(2*k*L) - k + 2*exp(4*k*L) - 2) / (2*exp(2*k*L)*k^2*(exp(2*k*L) + 1)) ...
+ (exp(4*k*L) - 2*exp(2*k*L) + 1) / (2*exp(2*k*L)*k^3*(exp(2*k*L) + 1))
solutions = solve(eqn, c, 'maxdegree', 3)
sol= subs(solutions, L, 2); %arbitrary
%vpa(limit(sol(1), k, 0, 'left'))
%vpa(limit(sol(1), k, 0, 'right'))
tiledlayout('flow');
nexttile(); fplot([real(sol(1)), imag(sol(1))], [-3 3]); title('root #1');
nexttile(); fplot([real(sol(2)), imag(sol(3))], [-5 5]); title('root #2');
nexttile(); fplot([real(sol(3)), imag(sol(3))], [-3 3]); title('root #3');
댓글 수: 3
syms c k L
eqn = c^3 ...
- c^2*(2*k*exp(4*k*L) + 2*k*exp(2*k*L) + exp(4*k*L) - 6*k^2*exp(2*k*L) + 1) / (2*exp(2*k*L) * k * (exp(2*k*L)+1)) ...
- c*(-k*exp(4*k*L) + 2*k*exp(2*k*L) - k + 2*exp(4*k*L) - 2) / (2*exp(2*k*L)*k^2*(exp(2*k*L) + 1)) ...
+ (exp(4*k*L) - 2*exp(2*k*L) + 1) / (2*exp(2*k*L)*k^3*(exp(2*k*L) + 1))
solutions = solve(eqn, c, 'maxdegree', 3)
sol= subs(solutions, L, 2); %arbitrary
%vpa(limit(sol(1), k, 0, 'left'))
%vpa(limit(sol(1), k, 0, 'right'))
tiledlayout('flow');
nexttile(); fplot([real(sol(1)), imag(sol(1))], [-3 -1e-2]); title('root #1');
nexttile(); fplot([real(sol(1)), imag(sol(1))], [1e-2, 3]); title('root #1');
%nexttile(); fplot([real(sol(2)), imag(sol(3))], [-5 5]); title('root #2');
%nexttile(); fplot([real(sol(3)), imag(sol(3))], [-3 3]); title('root #3');
syms c k L
eqn = c^3 ...
- c^2*(2*k*exp(4*k*L) + 2*k*exp(2*k*L) + exp(4*k*L) - 6*k^2*exp(2*k*L) + 1) / (2*exp(2*k*L) * k * (exp(2*k*L)+1)) ...
- c*(-k*exp(4*k*L) + 2*k*exp(2*k*L) - k + 2*exp(4*k*L) - 2) / (2*exp(2*k*L)*k^2*(exp(2*k*L) + 1)) ...
+ (exp(4*k*L) - 2*exp(2*k*L) + 1) / (2*exp(2*k*L)*k^3*(exp(2*k*L) + 1));
solutions = solve(eqn, c, 'maxdegree', 3);
sol= subs(solutions, L, 2); %arbitrary
%vpa(limit(sol(1), k, 0, 'left'))
%vpa(limit(sol(1), k, 0, 'right'))
tiledlayout('flow');
%nexttile(); fplot([real(sol(1)), imag(sol(1))], [-3 3]); title('root #1');
%nexttile(); fplot([real(sol(2)), imag(sol(3))], [-5 5]); title('root #2');
nexttile(); fplot([real(sol(3)), imag(sol(3))], [-1 1]); title('root #3');
syms c k L
eqn = c^3 ...
- c^2*(2*k*exp(4*k*L) + 2*k*exp(2*k*L) + exp(4*k*L) - 6*k^2*exp(2*k*L) + 1) / (2*exp(2*k*L) * k * (exp(2*k*L)+1)) ...
- c*(-k*exp(4*k*L) + 2*k*exp(2*k*L) - k + 2*exp(4*k*L) - 2) / (2*exp(2*k*L)*k^2*(exp(2*k*L) + 1)) ...
+ (exp(4*k*L) - 2*exp(2*k*L) + 1) / (2*exp(2*k*L)*k^3*(exp(2*k*L) + 1));
solutions = solve(eqn, c, 'maxdegree', 3);
sol= subs(solutions, L, 2); %arbitrary
vpa(limit(sol(3), k, 0, 'left'))
vpa(limit(sol(3), k, 0, 'right'))
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