how to code equation
8 views (last 30 days)
Show older comments
Cesar Cardenas
on 28 Oct 2023
Commented: Walter Roberson
on 4 Nov 2023
Hello, I'm trying to code this equation but I think it is not right. Not sure how to adjust the LHS to avoid errors. Any help will be greatly appreciated. Thanks.
psi - log(psi) = -3 * -4 * log(l/2) + 4 * log(E) + 2 * l/E
1 Comment
Walter Roberson
on 30 Oct 2023
See by the way https://www.mathworks.com/matlabcentral/answers/225896-how-can-i-calculate-ln-x-in-matlab-code#answer_1195970 in which I talk about how different computer languages represent natural logarithm in practice.
Accepted Answer
Star Strider
on 28 Oct 2023
Using the Symbolic MAth Toolbox —
syms xi lambda psi
Eqn = psi - log(psi) == -3 * -4 * log(lambda/2) + 4 * log(xi) + 2 * lambda/xi
You can then manipulate it symbolically and calculate with it symbolically.
.
18 Comments
Walter Roberson
on 4 Nov 2023
Q = @(v) sym(v);
k = Q(physconst('Boltzmann'));
T = Q(1.2)*(1e6);
mH = Q(1.66)*(1e-27);
G = Q(6.67)*(1e-11);
Ms = Q(1.99)*(1e30);
uc = sqrt(2 * k * T/mH);
rc = G * Ms * mH/4 * k * T;
syms u r real
Eqn = (u/uc)^2 - 2 * log(u/uc) == 4 * log(r/rc) + 4 * log(rc/r) - 3
simplify(Eqn)
sol = simplify(solve(Eqn, u))
sol1 = sol(1);
sol1r = real(sol1);
sol1i = imag(sol1);
tiledlayout('flow');
nexttile(); fplot(sol1r, [0.01 1]); title('real component')
nexttile(); fplot(sol1i, [0.01 1]); title('imaginary component')
Look at the right hand side of your Eqn. You have
4 * log(r/rc) + 4 * log(rc/r) - 3
When r and rc are positive and non-zero then log(r/rc) = -log(rc/r) and the log terms on the right hand side cancel.
Eqn1 = (u/uc)^2 - 2 * log(u/uc) == - 3
solve(Eqn1, u)
syms x
solve( x^2 - 2*log(x) == -3 )
vpa(ans)
so u/uc would have to be complex-valued for there to be a solution.
More Answers (0)
See Also
Categories
Find more on Assumptions in Help Center and File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!