![Verify Green's theorem for the integral \int_C x^2ydx + y dy , where C is the boundary of the region between the curves y = x and y = x^3, for 0 \ Verify Green's theorem for the integral \int_C x^2ydx + y dy , where C is the boundary of the region between the curves y = x and y = x^3, for 0 \](https://homework.study.com/cimages/multimages/16/green_07-b80333173262623278.jpg)
Verify Green's theorem for the integral \int_C x^2ydx + y dy , where C is the boundary of the region between the curves y = x and y = x^3, for 0 \
![multivariable calculus - How are the two forms of Green's theorem are equivalent? - Mathematics Stack Exchange multivariable calculus - How are the two forms of Green's theorem are equivalent? - Mathematics Stack Exchange](https://i.stack.imgur.com/ktYm1.png)
multivariable calculus - How are the two forms of Green's theorem are equivalent? - Mathematics Stack Exchange
![SOLVED: Using Green's Theorem, evaluate the path integral ∮g⋅dr where g is the semi-circle centered at (0, 1) with radius r in the right-half plane as indicated in the diagram below: Without SOLVED: Using Green's Theorem, evaluate the path integral ∮g⋅dr where g is the semi-circle centered at (0, 1) with radius r in the right-half plane as indicated in the diagram below: Without](https://cdn.numerade.com/ask_images/ea0674159a4a443c90518a147c665f09.jpg)
SOLVED: Using Green's Theorem, evaluate the path integral ∮g⋅dr where g is the semi-circle centered at (0, 1) with radius r in the right-half plane as indicated in the diagram below: Without
![multivariable calculus - How are the two forms of Green's theorem are equivalent? - Mathematics Stack Exchange multivariable calculus - How are the two forms of Green's theorem are equivalent? - Mathematics Stack Exchange](https://i.stack.imgur.com/XXdlY.png)