Solve a nonlinear system

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Oleg Komarov
Oleg Komarov il 4 Mar 2011
I'm solving the following as:
f = @(R01) 1/(1+R01) - .95;
R01 = fzero(f,0);
f = @(R02) 0.08/(1+R01) + 1.08/(1+R02)^2 - .99;
R02 = fzero(f,0);
How can I solve the system in one shot, can't make it work with fsolve.
Thanks
Oleg

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Andrew Newell
Andrew Newell il 4 Mar 2011
Is this what you're trying to do?
f = @(x) [1/(1+x(1)) - .95; 0.08/(1+x(1)) + 1.08/(1+x(2))^2 - .99];
R = fsolve(f,[0 0]);
If so, you can't do it with fzero because it only accepts a function with a scalar input and scalar output.
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Zulhash Uddin
Zulhash Uddin il 6 Mar 2011
After running the program, we r getting some text with the result. How can we minimize this text?
Equation solved.
fsolve completed because the vector of function values is near zero
as measured by the default value of the function tolerance, and
the problem appears regular as measured by the gradient.
<stopping criteria details>
R =
0.0526315789063412 0.0870230886539235
Andrew Newell
Andrew Newell il 6 Mar 2011
@Zulhash, could you please submit a separate question on this?

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Più risposte (2)

Matt Fig
Matt Fig il 4 Mar 2011
Do you mean get R01 and R02 in one shot, or do you mean find where the two functions meet (what I usually think of when someone says they want to solve a system of equations)?
If you mean, how to get to R02 in one shot,
f3 = @(R02) 0.08./(1+(1/.95-1)) + 1.08/(1+R02).^2 - .99;
R02 = fzero(f3,0)
Or,
f = @(R01) 1/(1+R01) - .95;
f = @(R02) 0.08/(1+fzero(f,0)) + 1.08/(1+R02)^2 - .99;
R02 = fzero(f,0)
  1 Commento
Oleg Komarov
Oleg Komarov il 4 Mar 2011
I actually wanted to use fsolve as in EXAMPLE 1 of the fcn help. Is it possible or am I attempting something senseless from a mathematical point of view?

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Walter Roberson
Walter Roberson il 4 Mar 2011
With the symbolic toolkit, it looks like
solve(0.8e-1/(1+solve(1/(1+RO1)-.95))+1.08/(1+R02)^2-.99)
and gives the values -2.087023117, 0.08702311660
  1 Commento
Oleg Komarov
Oleg Komarov il 4 Mar 2011
Same comment as to Matt's answer.

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