6.2 Line integrals (Page 10/20)

Calculus volume 3 Page 10 / 20

In [link] , what if we had oriented the unit circle clockwise? We denote the unit circle oriented clockwise by $− C .$ Then

\oint_{− C} F \cdot T d s = − \oint_{C} F \cdot T d s = −2 π .

Notice that the circulation is negative in this case. The reason for this is that the orientation of the curve flows against the direction of F .

Calculate the circulation of $F (x, y) = ⟨ - \frac{y}{x^{2} + y^{2}}, \frac{x}{x^{2} + y^{2}} ⟩$ along a unit circle oriented counterclockwise.

$2 π$

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Calculating work

Calculate the work done on a particle that traverses circle C of radius 2 centered at the origin, oriented counterclockwise, by field $F (x, y) = ⟨ −2, y ⟩ .$ Assume the particle starts its movement at $(1, 0) .$

The work done by F on the particle is the circulation of F along C : $\oint_{C} F \cdot T d s .$ We use the parameterization $r (t) = ⟨ 2 cos t, 2 sin t ⟩, 0 \leq t \leq 2 π$ for C . Then, $r^{'} (t) = ⟨ −2 sin t, 2 cos t ⟩$ and $F (r (t)) = ⟨ −2, 2 sin t ⟩ .$ Therefore, the circulation of F along C is

\begin{matrix} \oint_{C} F \cdot T d s & = \int_{0}^{2 π} ⟨ −2, 2 sin t ⟩ \cdot ⟨ −2 sin t, 2 cos t ⟩ d t \\ = \int_{0}^{2 π} (4 sin t + 4 sin t cos t) d t \\ = {[−4 cos t + 4 {sin}^{2} t]}_{0}^{2 π} \\ = (−4 cos (2 π) + 2 {sin}^{2} (2 π)) - (−4 cos (0) + 4 {sin}^{2} (0)) \\ = −4 + 4 = 0. \end{matrix}

The force field does zero work on the particle.

Notice that the circulation of F along C is zero. Furthermore, notice that since F is the gradient of $f (x, y) = −2 x + \frac{y^{2}}{2},$ F is conservative. We prove in a later section that under certain broad conditions, the circulation of a conservative vector field along a closed curve is zero.

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Calculate the work done by field $F (x, y) = ⟨ 2 x, 3 y ⟩$ on a particle that traverses the unit circle. Assume the particle begins its movement at $(−1, 0) .$

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Key concepts

Line integrals generalize the notion of a single-variable integral to higher dimensions. The domain of integration in a single-variable integral is a line segment along the x -axis, but the domain of integration in a line integral is a curve in a plane or in space.
If C is a curve, then the length of C is $\int_{C} d s .$
There are two kinds of line integral: scalar line integrals and vector line integrals. Scalar line integrals can be used to calculate the mass of a wire; vector line integrals can be used to calculate the work done on a particle traveling through a field.
Scalar line integrals can be calculated using [link] ; vector line integrals can be calculated using [link] .
Two key concepts expressed in terms of line integrals are flux and circulation. Flux measures the rate that a field crosses a given line; circulation measures the tendency of a field to move in the same direction as a given closed curve.

Key equations

Calculating a scalar line integral
$\int_{C} f (x, y, z) d s = \int_{a}^{b} f (r (t)) \sqrt{{(x^{'} (t))}^{2} + {(y^{'} (t))}^{2} + {(z^{'} (t))}^{2}} d t$
Calculating a vector line integral
$\int_{C} F \cdot d s = \int_{C} F \cdot T d s = \int_{a}^{b} F (r (t)) \cdot r^{'} (t) d t$
or
$\int_{C} P d x + Q d y + R d z = \int_{a}^{b} (P (r (t)) \frac{d x}{d t} + Q (r (t)) \frac{d y}{d t} + R (r (t)) \frac{d z}{d t}) d t$
Calculating flux
$\int_{C} F \cdot \frac{n (t)}{‖ n (t) ‖} d s = \int_{a}^{b} F (r (t)) \cdot n (t) d t$

True or False? Line integral $\int_{C}^{} f (x, y) d s$ is equal to a definite integral if C is a smooth curve defined on $[a, b]$ and if function $f$ is continuous on some region that contains curve C .

True

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True or False? Vector functions $r_{1} = t i + t^{2} j,$ $0 \leq t \leq 1,$ and $r_{2} = (1 - t) i + {(1 - t)}^{2} j,$ $0 \leq t \leq 1,$ define the same oriented curve.

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True or False? $\int_{− C}^{} (P d x + Q d y) = \int_{C}^{} (P d x - Q d y)$

False

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True or False? A piecewise smooth curve C consists of a finite number of smooth curves that are joined together end to end.

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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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