4. Compute the outward flux of the vector field F(r) = (r, y', =') through the unit sphere r² + y² + =² = 1 by first converting it to a triple integral using Gauss' Theorem, then switching to spherical coordinates.

4. Compute the outward flux of the vector field F(r) = (r, y', =') through the unit sphere r² + y² + =² = 1 by first converting it to a triple integral using Gauss' Theorem, then switching to spherical coordinates.

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter11: Topics From Analytic Geometry

Section11.4: Plane Curves And Parametric Equations

Problem 33E

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Concept explainers

Arc Length

Arc length can be thought of as the distance you would travel if you walked along the path of a curve. Arc length is used in a wide range of real applications. We might be interested in knowing how far a rocket travels if it is launched along a parabolic path. Alternatively, if a curve on a map represents a road, we might want to know how far we need to drive to get to our destination. The distance between two points along a curve is known as arc length.

Line Integral

A line integral is one of the important topics that are discussed in the calculus syllabus. When we have a function that we want to integrate, and we evaluate the function alongside a curve, we define it as a line integral. Evaluation of a function along a curve is very important in mathematics. Usually, by a line integral, we compute the area of the function along the curve. This integral is also known as curvilinear, curve, or path integral in short. If line integrals are to be calculated in the complex plane, then the term contour integral can be used as well.

Triple Integral

Examples:

Question

4. Compute the outward flux of the vector field F(r) = (r³, y", z*)
through the unit sphere r + y + 2² = 1 by first converting it to a
triple integral using Gauss' Theorem, then switching to spherical
coordinates.

5. Let f(r, y, 2) = cos(2) and S be the unit sphere r + y + z = 1.
Compute the surface integral | f(x,y, z) dS.
[5]

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