Green’s Theorem for line integrals Use either form of Green’s Theorem to evaluate the following line integrals. 30. ∮ C ( − 3 y + x 3 / 2 ) d x + ( x − y 2 / 3 ) d y ; C is the boundary of the half disk {( x , y ): x 2 + y 2 ≤ 2, y ≥ 0} with counterclockwise orientation.
Green’s Theorem for line integrals Use either form of Green’s Theorem to evaluate the following line integrals. 30. ∮ C ( − 3 y + x 3 / 2 ) d x + ( x − y 2 / 3 ) d y ; C is the boundary of the half disk {( x , y ): x 2 + y 2 ≤ 2, y ≥ 0} with counterclockwise orientation.
Solution Summary: The author evaluates the value of the line integral displaystyleundersetCoint.
Green’s Theorem for line integralsUse either form of Green’s Theorem to evaluate the following line integrals.
30.
∮
C
(
−
3
y
+
x
3
/
2
)
d
x
+
(
x
−
y
2
/
3
)
d
y
;
C is the boundary of the half disk {(x, y): x2 + y2 ≤ 2, y ≥ 0} with counterclockwise orientation.
With differentiation, one of the major concepts of calculus. Integration involves the calculation of an integral, which is useful to find many quantities such as areas, volumes, and displacement.
Green’s Theorem for line integrals Use either form of Green’sTheorem to evaluate the following line integral.
Use Green's Theorem to evaluate the line integral. Assume the curve is oriented counterclockwise.
$(5)
(5x+ sinh y)dy - (3y² + arctan x²) dx, where C is the boundary of the square with vertices (1, 3), (2, 3), (2, 4), and (1,4).
false
(Type an exact answer.)
(5x + sinh yldy – (3y® + arctan x
an x²) dx =
dx =
...
Use Green's Theorem to evaluate the following integral
Let² dx + (5x + 9) dy
Where C is the triangle with vertices (0,0), (11,0), and (10, 9) (in the positive direction).
College Algebra with Modeling & Visualization (5th Edition)
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