2. Consider the region D contained in the half-plane y 20 which is enclosed by the parabola V2x2 and the circle of radius 1 centered at the origin. y = (i) Compute the area of D using double integrals and rectangular coordinates. (ii) Use Green's Theorem to compute the area of D. (iii) Is the area of (i) and (ii) the same? Consider the function F(x, y, 2) = (-y,x, ev=): (iv) Compute the line integral of F along the boundary of the region D. (Use the clockwise orientation and assume D is contained in the plane z = 1.) (v) Compute the surface area of the surface parameterized by R(, y) = F(x, y, 3) over the region D.
2. Consider the region D contained in the half-plane y 20 which is enclosed by the parabola V2x2 and the circle of radius 1 centered at the origin. y = (i) Compute the area of D using double integrals and rectangular coordinates. (ii) Use Green's Theorem to compute the area of D. (iii) Is the area of (i) and (ii) the same? Consider the function F(x, y, 2) = (-y,x, ev=): (iv) Compute the line integral of F along the boundary of the region D. (Use the clockwise orientation and assume D is contained in the plane z = 1.) (v) Compute the surface area of the surface parameterized by R(, y) = F(x, y, 3) over the region D.
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Transcribed Image Text:2. Consider the region D contained in the half-plane y > 0 which is enclosed by the parabola
y = v2x? and the circle of radius 1 centered at the origin.
(i) Compute the area of D using double integrals and rectangular coordinates.
(ii) Use Green's Theorem to compute the area of D.
(iii) Is the area of (i) and (ii) the same?
Consider the function F(x, y, 2) =}(-y, x, ev=):
%3D
(iv) Compute the line integral of F along the boundary of the region D. (Use the
clockwise orientation and assume D is contained in the plane z = 1.)
(v) Compute the surface area of the surface parameterized by R(r, y) = F(x, y, 3) over
the region D.
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