After taking the time derivative of a symbolic expression, how do you then differentiate that new expression with respect to another variable's time derivative?

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Ben
Ben el 9 de Ag. de 2013
Respondida: Paul el 5 de Mzo. de 2023
I apologize for such a poorly worded question, but I'm not quite sure how else to word it.
You're given, x and y, both symbolic variables as a function of time. y is also a function of x. You determine the time derivative of y, ydot. xdot also appears in ydot because y is a function of x, and x is a function of time. How do you then differentiate ydot with respect to xdot?
Here's my code:
syms y x(t) t
y = sin(x);
ydot = diff(y,t);
diff(ydot,D(x)(t))
I've also tried this method:
syms y x(t) t
y = sin(x);
ydot = diff(y,t);
syms Dx
ydot = subs(ydot,sym('D(x)'),Dx);
diff(ydot,Dx)
But that gives me an output of:
ans(t) = 0
The answer should be cos(x(t))

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Walter Roberson
Walter Roberson el 9 de Ag. de 2013
No. MuPAD can only differentiate with respect to a variable, not with respect to a function.
  1 comentario
Dominic
Dominic el 5 de Mzo. de 2023
You have to create the general diff function for partial differentiation. You can perform this using the limit definition of the derivative with an h value as close to 0 as possible. You can program in the algebraic steps to simplification and then return the resultant expression. This will work for any type of function assuming the derivative is well defined.

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Paul
Paul el 5 de Mzo. de 2023
Ran in:
Check out functionalDerivative
syms y x(t) t
y = sin(x);
ydot = diff(y,t)
ydot(t) = 
syms Dx(t)
ydot(t) = subs(ydot,diff(x,t),Dx(t))
ydot(t) = 
functionalDerivative(ydot,Dx(t))
ans(t) = 

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