Dear All,
I would appreciate a lot if anyone can make comment on the following problem.
I have a second order differential equation y''=f(x,y,y') which is defined in the area [-d, d]. I know that the first derivative of the function much vanish at the boundaries: y'(-d)=y'(d)=0. In addition, I know if and only if d is equal to or larger than a critical value L, the value of the function at the boundaries is known. (y(-d) and y(d) are known variables in this case) The problem is to find y in the whole area and find the critical value L. The following is my idea about dealing with this the problem, but I don't know how to implement it:
I want to take an initial value for d and assume that this value is sufficiently large. Afterwards, I want to solve the "second order" problem with "3 constraint" i.e. y'(-d)=0, y(-d) is known and y'(d)=0. After the problem was solved, I want to compare the obtained value for y(d) and the known value, if there were agree, that means d was indeed sufficiently large, and if not, I increase d and repeat the procedure until the obtained value of y(d) matches with the known value.
Here the problem is indeed initial value problem in a sense that I know initial value of the function and its derivative at the beginning, but I also want to put a constraint on the first derivative for the endpoint which it looks like to me that cannot be done by ODE45. And I am not sure how to do it using BVP4C.
I look forward to any suggestion.
