How can i include repeating and complex roots within my code ?

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Nii-Lantei Samuda-Jones
Nii-Lantei Samuda-Jones am 15 Aug. 2021
Bearbeitet: Walter Roberson am 15 Aug. 2021
Displayed below is a set code that is meant to solve linear second order homogeneous differential equations where the user is prompted to include 3 coefficients and two intial conditions. I have been tasked to "complete" this code by allowing the roots to be complex and repeated as solutions generated originate from 2 real distinct roots. Any support into how i can alter this code to fit these requirements are greatly appreciated.
c1='Please enter a value for coefficient 1 ';
a=input(c1);
c2='Please enter a value for coefficient 2 ';
b=input(c2);
c3='Please enter a value for coefficient 3 ';
c=input(c3);
intial1='Enter initial condition for the solution' ;
ytime0=input(intial1);
intial2='Enter initial condition of the derivative of solution' ;
ydtime0=input(intial2);
fprintf('The values entered: \n a = %d \n b = %d \n c = %d\n', a,b,c);
response=(b.^2)-(4*a*c);
disp(response)
if(response>0)
clc();
disp('The response is over-damped')
m1=(-b+sqrt(response))./(2*a);
m2=(-b-sqrt(response))./(2*a);
fprintf(' The roots of the characteristic equation \n m1 = %d \n m2 = %d \n', m1, m2);
D=[1 1;m1 m2];
F=[ytime0;ydtime0];
sol=inv(D)*F;
cons1=sol(1);
cons2=sol(2);
if (m1>m2)
tau=1/m1;
fprintf('the value is %d\n',tau)
end
if (m1<m2)
tau=1/m2;
fprintf('the value is %d\n',tau)
end
time5=7*abs(tau);
disp(time5)
t=linspace(0,time5);
y=cons1*exp(m1*t)+cons2*exp(m2*t);
plot(t,y)
end
if(response==0)
disp('The response is critically-damped')
end
if(response<0)
disp('The response is underdamped')
end

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Walter Roberson
Walter Roberson am 15 Aug. 2021
Bearbeitet: Walter Roberson am 15 Aug. 2021
Ran in:
m1 = randn() + 1i*randn();
m2 = randn() + 1i*randn();
fprintf(' The roots of the characteristic equation \n m1 = %d \n m2 = %d \n', m1, m2);
The roots of the characteristic equation m1 = -1.235814e+00 m2 = -6.350351e-01
The %d format should only be used for integers that have no imaginary part.
MATLAB does not have any % format item for complex numbers: you have to break them into real and imaginary part. However, you can take shortcuts such as
fprintf(' The roots of the characteristic equation \n m1 = %s \n m2 = %s \n', string(m1), string(m2));
The roots of the characteristic equation m1 = -1.2358+0.74685i m2 = -0.63504-0.72677i

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