1 1 Copyright © Cengage Learning. All rights reserved. 16 Vector CalculusCopyright © Cengage Learning. All rights reserved. 16.4 Green’s Theorem3 3 Green's Theorem Learning objectives: § convert line integrals to double integrals using Green’s Theorem, then evaluate § convert double integrals to line integrals using Green’s Theorem, then evaluate § replace a line integral along a complicated curve by a line integral over a simpler curve using Green’s Theorem, then evaluate4 4 Green's Theorem Green’s Theorem gives the relationship between a line integral around a simple closed curve C and a double integral over the plane region D bounded by C. (See Figure 1. We assume that D consists of all points inside C as well as all points on C.) Figure 15 5 Green's Theorem In stating Green’s Theorem we use the convention that the positive orientation of a simple closed curve C refers to a single counterclockwise traversal of C. Thus, if C is given by the vector function r(t), a ≤ t ≤ b, then the region D is always on the left as the point r(t) traverses C. (See Figure 2.) Figure 26 6 Green's Theorem7 7 Example Evaluate ∫C x4 dx + xy dy, where C is the triangular curve consisting of the line segments from (0, 0) to (1, 0), from (1, 0) to (0, 1), and from (0, 1) to (0, 0). Solution: Although the given line integral could be evaluated directly, that would involve setting up three separate integrals along the three sides of the triangle, so let’s use Green’s Theorem instead. Notice that the region D enclosed by C is simple and C has positive orientation (see Figure 4). Figure 48 8 Example – Solution If we let P(x, y) = x4 and Q(x, y) = xy, then we have continued9 9 Green's Theorem In the example we found that the double integral was easier to evaluate than the line integral. But sometimes it’s easier to evaluate the line integral, and Green’s Theorem is used in the reverse direction. For instance, if it is known that P(x, y) = Q(x, y) = 0 on the curve C, then Green’s Theorem gives no matter what values P and Q assume in the region D.10 10 Green's Theorem Another application of the reverse direction of Green’s Theorem is in computing areas. Since the area of D is ∫∫D 1 dA, we wish to choose P and Q so that There are several possibilities: P(x, y) = 0 P(x, y) = –y P(x, y) = y Q(x, y) = x Q(x, y) = 0 Q(x, y) = x11 11 Green's Theorem Then Green’s Theorem gives the following formulas for the area of D:12 12 Green's Theorem Formula 5 can be used to explain how planimeters work. A planimeter is a mechanical instrument used for measuring the area of a region by tracing its boundary curve. These devices are useful in all the sciences: in biology for measuring the area of leaves or wings, in medicine for measuring the size of cross-sections of organs or tumors, in forestry for estimating the size of forested regions from photographs.13 13 Green's Theorem Figure 5 shows the operation of a polar planimeter: The pole is fixed and, as the tracer is moved along the boundary curve of the region, the wheel partly slides and partly rolls perpendicular to the tracer arm. The planimeter measures the distance that the wheel rolls and this is proportional to the area of the enclosed region. A Keuffel and Esser polar planimeter Figure 514 14 Extended Version of Green’s Theorem15 15 Extended Version of Green’s Theorem Green’s Theorem can be extended to apply to regions with holes, that is, regions that are not simply-connected. Observe that the boundary C of the region D in Figure 9 consists of two simple closed curves C1 and C2. We assume that these boundary curves are oriented so that the region D is always on the left as the curve C is traversed. Thus the positive direction is counterclockwise for the outer curve C1 but clockwise for the inner curve C2. Figure 916 16 Extended Version of Green’s Theorem If we divide D into two regions D ʹ′ and D ʹ′ʹ′ by means of the lines shown in Figure 10 and then apply Green’s Theorem to each of D ʹ′ and D ʹ′ʹ′, we get Figure 1017 17 Extended Version of Green’s Theorem Since the line integrals along the common boundary lines are in opposite directions, they cancel and we get which is Green’s Theorem for the region
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