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Section 17.8 Stokes’ Theorem. DEFINITION The orientation of a surface S induces the positive orientation of the boundary curve C as shown in the diagram.

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Presentation on theme: "Section 17.8 Stokes’ Theorem. DEFINITION The orientation of a surface S induces the positive orientation of the boundary curve C as shown in the diagram."— Presentation transcript:

1 Section 17.8 Stokes’ Theorem

2 DEFINITION The orientation of a surface S induces the positive orientation of the boundary curve C as shown in the diagram. This means that if you walk in the positive direction around C with your head pointing in the direction of n, then the surface will always be on your left.

3 Let S be an oriented piecewise-smooth surface that is bounded by a simple, closed, piecewise-smooth boundary curve C with positive orientation. Let F be a vector field whose components have continuous partial derivatives on an open region in that contains S. Then STOKES’ THEOREM NOTE: Stokes’ Theorem can be regarded as a higher- dimensional version of Green’s Theorem.

4 NOTATION The positively oriented boundary curve of the oriented surface S is often written as ∂S. So the result of Stokes’ Theorem can be expressed as

5 COMMENT Since Stokes’ Theorem says that the line integral around the boundary curve of S of the tangential component of F is equal to the surface integral of the normal component of the curl of F.

6 EXAMPLES 1.Let ∂S be the triangle formed by the intersection of the plane 2x + 2y + z = 6 and the three coordinate planes. Verify Stokes’s Theorem if F(x, y, z) = −y 2 i + zj + xk. 2.Verify Stokes’s Theorem for F(x, y, z) = 2zi + xj + y 2 k, where S is the surface of the paraboloid z = 4 − x 2 − y 2 and ∂S is the trace of S in the xy-plane.

7 THE MEANING OF THE CURL VECTOR Suppose that C is an oriented closed curve and v represents the velocity field in fluid flow. Consider the line integral ∫ C v · dr = ∫ C v · T ds and recall that v · T is the component of v in the direction of the unit tangent vector T. This means the closer the direction of v is to the direction of T, the larger the value of v · T. Thus, ∫ C v · dr is a measure of the tendency of the fluid to move around C and is called the circulation of v around C.

8 CURL (CONTINUED) Let P 0 (x 0, y 0, z 0 ) be a point in the fluid at let S a be a small disk with radius a and center P 0. Then, (curl F)(P) ≈ (curl F)(P 0 ) for all points P on S a because the curl of F is continuous. Thus, by Stokes’ Theorem, we get the following approximation to the circulation around the boundary circle C a.

9 CURL (CONCLUDED) The approximation becomes better as a → 0 and we have This gives the relationship between the curl and the circulation. It shows that the curl v · n is a measure of the rotating effect of the fluid about the axis n. The curling effect is greatest about the axis parallel to curl v.

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