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vector calculus - Finding scalar potential function



Consider the vector field defined by: $$\vec F(x,y)=\langle 2xy-\sin x,x^2+e^{3y}\rangle$$ We can check to see if the vector field is conservative with the following calculations: $$\begin{align*} \frac{\partial}{\partial x}(x^2+e^{3y})=2x\\ \frac{\partial}{\partial y}(2xy-\sin x)=2x\\ \end{align*}$$ Now, I am interested in looking at several different procedures for finding a scalar function $f(x,y)$ such that $\vec F(x,y)=\nabla f(x,y)$. Can folks share their ideas?



Update: Sure, students need to attack this by hand in class in the following manner.


$$\begin{align*} \vec F(x,y)&=\nabla f(x,y)\\ \langle 3+2xy, x^2-3y^2\rangle&=\langle\partial f/\partial x, \partial f/\partial y\rangle \end{align*}$$


They start by setting $$\frac{\partial f}{\partial x}=3+2xy,$$ then integrate with respect to $x$. $$f(x,y)=3x+x^2y+h(y)$$ The second step is to set: $$\begin{align*} \frac{\partial f}{\partial y}&=x^2-3y^2\\ \frac{\partial}{\partial y}(3x+x^2y+h(y))&=x^2-3y^2\\ x^2+h'(y)&=x^2-3y^2 \end{align*}$$ The last line gives us $$h'(y)=-3y^2,$$ then integrating gives us $$h(y)=-y^3.$$ Subbing this into $f(x,y)=3x+x^2y+h(y)$ gives the final answer. $$f(x,y)=3x+x^2y-y^3$$


So I am trying:


Clear[f, h, x, y, p, q]
p = 3 + 2 x y;
q = x^2 - 3 y^2;

Then I perform the conservative test:


D[p, y]

D[q, x]

Which gives:


(* 2x *)

(* 2x *)

So we do have a conservative vector field. Next:


f=Integrate[p,x]+h[y]


Which gives:


(* 3 x + x^2 y + h[y] *)

Next, I run:


Solve[D[f, y] == q, h'[y]]

Which gives:


(* {{Derivative[1][h][y] -> -3 y^2}} *)

Then I do this:



Integrate[-3 y^2, y]

Which gives:


(* -y^3 *)

Then I do this:


f = f /. h[y] -> -y^3

Which gives the final answer:


(* 3 x + x^2 y - y^3 *)


I love the answers I have received thus far, but would also like to see what folks do to purify my attempt.



Answer



The typical approach is


DSolve[{D[f[x, y], x] == 2 x y - Sin[x], D[f[x, y], y] == x^2 + Exp[3 y]}, f[x, y], {x, y}]
(* {{f[x, y] -> E^(3 y)/3 + x^2 y + C[1] + Cos[x]}} *)

Note that, if the vector field were not conservative, DSolve would return unevaluated.


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