I have a matrix dRho which is a (density) gradient vector field. I want to compute the scalar potential (the density) Rho by means of the matlab-function potential(V,X,Y).
X and Y are my cartesian coordinate vectors:
[m, n] = size(dRho); [1, n] = size(X); [m, 1] = size(Y);
As the function potential() deals with symbolic variables, I convert my quantities to symbolic matrix/vectors with the sym() function, 'f' for floating point precision. (According to numeric to symbolic conversion https://ch.mathworks.com/help/symbolic/numeric-to-symbolic-conversion-1.html#buyp69j-1)
dRho_sym = sym(dRho, 'f');
X_sym = sym(X, 'f');
Y_sym = sym(Y, 'f');
Then I'm trying to compute the potential for each row of my matrix wrt to X_sym, using the respective y value (Y_sym(j)) as base point for the integration, as suggested in the description:
"potential(V,X,Y) computes the potential of vector field V with respect to X using Y as base point for the integration".
for j = 1:m
Rho = potential( dRho_sym(j,:), X_sym, Y_sym(j));
end
I'm getting this error:
Error using sym/potential
Second argument must be a vector of variables.
Are the symbolic numbers not understood as symbolic variables?
Or do I mess up something with the dimensions?
This is a more detailed description in the potential() function:
I will be very gratefull for any help! Also suggestions about how to compute the scalar potential of a gradient vector field by other means are welcome.
