6.8 The divergence theorem (Page 3/12)

Calculus volume 3 Page 3 / 12

Verify the divergence theorem for vector field $F (x, y, z) = ⟨ x + y + z, y, 2 x - y ⟩$ and surface S given by the cylinder $x^{2} + y^{2} = 1, 0 \leq z \leq 3$ plus the circular top and bottom of the cylinder. Assume that S is positively oriented.

Both integrals equal $6 π .$

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Recall that the divergence of continuous field F at point P is a measure of the “outflowing-ness” of the field at P . If F represents the velocity field of a fluid, then the divergence can be thought of as the rate per unit volume of the fluid flowing out less the rate per unit volume flowing in. The divergence theorem confirms this interpretation. To see this, let P be a point and let $B_{r}$ be a ball of small radius r centered at P ( [link] ). Let $S_{r}$ be the boundary sphere of $B_{r} .$ Since the radius is small and F is continuous, $div F (Q) \approx div F (P)$ for all other points Q in the ball. Therefore, the flux across $S_{r}$ can be approximated using the divergence theorem:

\iint_{S_{r}} F \cdot d S = ∭_{B_{r}} div F d V \approx ∭_{B_{r}} div F (P) d V .

Since $div F (P)$ is a constant,

∭_{B_{r}} div F (P) d V = div F (P) V (B_{r}) .

Therefore, flux $\iint_{S_{r}} F \cdot d S$ can be approximated by $div F (P) V (B_{r}) .$ This approximation gets better as the radius shrinks to zero, and therefore

div F (P) = lim_{r \to 0} \frac{1}{V (B_{r})} \iint_{S_{r}} F \cdot d S .

This equation says that the divergence at P is the net rate of outward flux of the fluid per unit volume.

This figure is a diagram of ball B_r, with small radius r centered at P. Arrows are drawn pointing up and to the right across the ball. — Ball $B_{r}$ of small radius r centered at P.

Using the divergence theorem

The divergence theorem translates between the flux integral of closed surface S and a triple integral over the solid enclosed by S . Therefore, the theorem allows us to compute flux integrals or triple integrals that would ordinarily be difficult to compute by translating the flux integral into a triple integral and vice versa.

Applying the divergence theorem

Calculate the surface integral $\iint_{S} F \cdot d S,$ where S is cylinder $x^{2} + y^{2} = 1, 0 \leq z \leq 2,$ including the circular top and bottom, and $F = ⟨ \frac{x^{3}}{3} + y z, \frac{y^{3}}{3} - sin (x z), z - x - y ⟩ .$

We could calculate this integral without the divergence theorem, but the calculation is not straightforward because we would have to break the flux integral into three separate integrals: one for the top of the cylinder, one for the bottom, and one for the side. Furthermore, each integral would require parameterizing the corresponding surface, calculating tangent vectors and their cross product, and using [link] .

By contrast, the divergence theorem allows us to calculate the single triple integral $∭_{E} div F d V,$ where E is the solid enclosed by the cylinder. Using the divergence theorem and converting to cylindrical coordinates, we have

\begin{matrix} \iint_{s} F \cdot d S & = ∭_{E} div F d V \\ = ∭_{E} (x^{2} + y^{2} + 1) d V \\ = \int_{0}^{2 π} \int_{0}^{1} \int_{0}^{2} (r^{2} + 1) r d z d r d θ \\ = \frac{3}{2} \int_{0}^{2 π} d θ = 3 π . \end{matrix}

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Use the divergence theorem to calculate flux integral $\iint_{S} F \cdot d S,$ where S is the boundary of the box given by $0 \leq x \leq 2, 1 \leq y \leq 4, 0 \leq z \leq 1,$ and $F = ⟨ x^{2} + y z, y - z, 2 x + 2 y + 2 z ⟩$ (see the following figure).

This figure is a vector diagram in three dimensions. The box of the figure spans x from 0 to 2; y from 0 to 4; and z from 0 to 1. The vectors point up increasingly with distance from the origin; toward larger x with increasing distance from the origin; and toward smaller y values with increasing height.

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Applying the divergence theorem

Let $v = ⟨ - \frac{y}{z}, \frac{x}{z}, 0 ⟩$ be the velocity field of a fluid. Let C be the solid cube given by $1 \leq x \leq 4, 2 \leq y \leq 5, 1 \leq z \leq 4,$ and let S be the boundary of this cube (see the following figure). Find the flow rate of the fluid across S .

This is a figure of a diagram of the given vector field in three dimensions. The x components are –y/z, the y components are x/z, and the z components are 0. — Vector field $v = ⟨ - \frac{y}{z}, \frac{x}{z}, 0 ⟩ .$

The flow rate of the fluid across S is $\iint_{S} v \cdot d S .$ Before calculating this flux integral, let’s discuss what the value of the integral should be. Based on [link] , we see that if we place this cube in the fluid (as long as the cube doesn’t encompass the origin), then the rate of fluid entering the cube is the same as the rate of fluid exiting the cube. The field is rotational in nature and, for a given circle parallel to the xy -plane that has a center on the z -axis, the vectors along that circle are all the same magnitude. That is how we can see that the flow rate is the same entering and exiting the cube. The flow into the cube cancels with the flow out of the cube, and therefore the flow rate of the fluid across the cube should be zero.

To verify this intuition, we need to calculate the flux integral. Calculating the flux integral directly requires breaking the flux integral into six separate flux integrals, one for each face of the cube. We also need to find tangent vectors, compute their cross product, and use [link] . However, using the divergence theorem makes this calculation go much more quickly:

\begin{matrix} \iint_{S} v \cdot d S & = ∭_{C} div (v) d V \\ = ∭_{C} 0 d V = 0. \end{matrix}

Therefore the flux is zero, as expected.

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Source: OpenStax, Calculus volume 3. OpenStax CNX. Feb 05, 2016 Download for free at http://legacy.cnx.org/content/col11966/1.2

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