Partial Derivative and its roots

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Ali Akber
Ali Akber el 28 de Oct. de 2015
Comentada: @Johannes el 28 de Oct. de 2015
Dear Matlab Gurus
I want to calculate the symbolic partial derivative of a function w.r.t to 'a' and 'b'. The function is
f=n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2)
Further more I also want to simplify and calculate the roots of both variable 'a' and 'b'. Actually I want to find the optimal point expression for both 'a' and 'b'. My code is
syms a
syms b
syms n
syms p
syms h
syms g
syms d
syms e
syms r
syms s
f=inline('(n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2)','a','b');
diff(diff(f(a,b),a),b)
however, the above code generates the following errors
Error using inlineeval (line 15)
Error in inline expression ==> (n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2)
Undefined function or variable 'n'.
Error in inline/subsref (line 24)
INLINE_OUT_ = inlineeval(INLINE_INPUTS_, INLINE_OBJ_.inputExpr, INLINE_OBJ_.expr);
Error in test (line 12)
diff(diff(f(a,b),a),b)
Any kind of help is highly appreciated.
P.S: I have the symbolic math toolbox installed.
Regards

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Respuesta aceptada

@Johannes
@Johannes el 28 de Oct. de 2015
Hi Ali,
instead of the inline function you should use Anonymus Functions because inline will be removed in future releases.
syms a b n p h g d e r s
f=@(n,a,b,p,h,g,d,r,e,s) (n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2);
diff(diff(f,a),b)
Best regards,
Johannes
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Ali Akber
Ali Akber el 28 de Oct. de 2015
Thank you Johannes I deleted and reinstalled my Matlab and now the above code is working fine.
>> syms a b n p h g d e r s
>> f=@(n,a,b,p,h,g,d,r,e,s) (n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2);
>> derivative=diff(diff(f,a),b)
derivative =
(a*b*g^2*h^2*n*p*(b*d*n*g^2*r^2 + d*e*(b - 1)*s^2))/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2)^2 - (b*g^2*h^2*n*p)/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2) - (g^2*h^2*n*p*(b - 1))/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2) + (b*g^2*h^2*n*p*(a*d*n*g^2*r^2 + d*e*(a - 1)*s^2)*(b - 1))/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2)^2 + (a*g^2*h^2*n*p*(b*d*n*g^2*r^2 + d*e*(b - 1)*s^2)*(b - 1))/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2)^2 + (a*b*g^2*h^2*n*p*(d*n*g^2*r^2 + d*e*s^2)*(b - 1))/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2)^2 - (2*a*b*g^2*h^2*n*p*(a*d*n*g^2*r^2 + d*e*(a - 1)*s^2)*(b*d*n*g^2*r^2 + d*e*(b - 1)*s^2)*(b - 1))/(a*b*d*n*g^2*r^2 + d*e*(a - 1)*(b - 1)*s^2)^3
since the output is very long and it will take my lots of time to solve it manually, can you help me on how to find the roots of 'a' and 'b' using matlab?. I tried this but it didn't work.
>> [sola, solb] = solve([derivative == 0, derivative == 0], [a, b])
Once again thank you so much.
Regards
Ali
@Johannes
@Johannes el 28 de Oct. de 2015
Once again code:
syms a b n p h g d e r s
f=@(n,a,b,p,h,g,d,r,e,s) (n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2);
derivative_a=diff(f,a);
derivative_b=diff(f,b);
[sol_a,sol_b]=solve([derivative_a==0,derivative_b==0],[a,b])
You can type for example " doc solve " in your Matlab command window and the documentation of solve will appear.
Regards, Johannes

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Más respuestas (1)

Torsten
Torsten el 28 de Oct. de 2015
Why do you calculate diff(diff(f,a),b) ? Just for testing ?
syms a b n p h g d e r s
[sol_a,sol_b]=solve([diff(n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2,a)==0,diff(n*a*b*(1-b)*p*h^2*g^2)/(n*a*b*g^2*d*r^2+(1-a)*(1-b)*d*e*s^2,b)==0],[a,b])
Best wishes
Torsten.
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Ali Akber
Ali Akber el 28 de Oct. de 2015
Didn't work, generates these errors.
Error using char
Conversion to char from logical is not possible.
Error in solve>getEqns (line 245)
vc = char(v);
Error in solve (line 141)
[eqns,vars,options] = getEqns(varargin{:});
Something wrong with my Matlab? Can you execute and post your results?
Regards
Ali
Torsten
Torsten el 28 de Oct. de 2015
Consult your documentation on how to use the solve-command in release 2011b.
Best wishes
Torsten.

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