Vector Calculus. Line Integral of Vector Functions 2 dl = dxi +dyj +dzk For a closed loop, i.e....
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Transcript of Vector Calculus. Line Integral of Vector Functions 2 dl = dxi +dyj +dzk For a closed loop, i.e....
![Page 1: Vector Calculus. Line Integral of Vector Functions 2 dl = dxi +dyj +dzk For a closed loop, i.e. ABCA, = circulation of P around L Line given by L(x(s),](https://reader033.fdocuments.in/reader033/viewer/2022061416/56649ed05503460f94bde16f/html5/thumbnails/1.jpg)
Vector Calculus
![Page 2: Vector Calculus. Line Integral of Vector Functions 2 dl = dxi +dyj +dzk For a closed loop, i.e. ABCA, = circulation of P around L Line given by L(x(s),](https://reader033.fdocuments.in/reader033/viewer/2022061416/56649ed05503460f94bde16f/html5/thumbnails/2.jpg)
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Line Integral of Vector Functions B
APath L
dl
P
C
B
APath L
dl
P
C
A
Path L
dl
P
C
cos ,B
L A
d dl P l P dl = dxi +dyj +dzk
For a closed loop, i.e. ABCA,
L
dP l = circulation of P around L
Line given by L(x(s), y(s), z(s)), s = parametric variable
,)(ds
ds
sdxdx ,
)(ds
ds
sdydy .
)(ds
ds
sdzdz
Always take the differential element dl as positive and insert the integral limits according to the paths!!!
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Example For F = yi – xj, calculate the circulation of F along the two paths as shown below.
y
(1,2,0)
Cx
(1,0,0)
x Cy
Cz
(1,2,4)
C1 C2=Cx+Cy+Cz
dl = dxi +dyj +dzk
Solution:
d ydx xdy F l
Along path C2
2 x y zC C C C
d d d d F l F l F l F l
2
1 2 4
0 10 0 0
0 2y x
C
d ydx xdy dz
F l
![Page 4: Vector Calculus. Line Integral of Vector Functions 2 dl = dxi +dyj +dzk For a closed loop, i.e. ABCA, = circulation of P around L Line given by L(x(s),](https://reader033.fdocuments.in/reader033/viewer/2022061416/56649ed05503460f94bde16f/html5/thumbnails/4.jpg)
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Example - Continue
y
(1,2,0)
Cx
(1,0,0)
x Cy
Cz
(1,2,4)
C1 C2=Cx+Cy+Cz
Along path C1
Using x as the parametric variable, the path equations are given as
( ) , ( ) 2 , ( ) 4x x x y x x z x x
Therefore,
( ), 2 , 4
dx x dy x dz xdx dx dx dy dx dx dz dx dx
dx dx dx
and ( ) ( 2 4 )
2 2 2 0
d y x dx dx dx
ydx xdx xdx xdx
F l i j i j k
1
0C
d F l
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Example - Continue
1 2
2 0C C
d d d F l F l F l
The vector field defined by F in a given domain is non-conservative. The line integral is dependent on the integration path!
Yes, because the work done when we move a charge from one point to another is independent of the path but determined by the potential difference between these two points.
C
dF l is work done on an object along path C if F = force !!
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Surface Integral
Smooth
Surface S
dS
n̂
P
Surface integral or the flux of P across the surface S is
ˆ cosS S
dS dS P n P
n̂ is the outward unit vector normal to the surface.
For closed surface,
ˆS
dS P n = net outward flux of P.
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ExampleIf F = xi + yj + (z2 – 1)k, calculate the flux of F across the surface shown in the figure.
z
x
y
(1, -1, 2) (1, 1, 2)
(-1, 1, 2)(-1, -1, 2)F
n̂
Solution:
1 1 2
21 1
1 1 2
21 1
1 1
1 1
ˆ
( ( 1) )
( 1)
3
12
S
z
z
dS
x y z dxdy
z dxdy
dxdy
F n
i j k k
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Volume Integral x y zV V V V
dV F dV F dV F dV F i j k
Evaluation : choose a suitable integration order and then find out the suitable lower and upper limits for x, y and z respectively.
Example: Let F = 2xzi – xj + y2k. Evaluate VdVF
where V is the region bounded by the surface x = 0, x = 2, y = 0, y = 6, z = 0, z = 4.
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Volume Integral Solution:
2 6 4 2
0 0 0
2 6 4 2 6 4
0 0 0 0 0 0
2 6 4 2
0 0 0
(2 )
2 ( )
192 48 576
x y z
V x y z
x y z x y z
x y z x y z
x y z
x y z
dV xz x y dzdydx
xzdzdydx x dzdydx
y dzdydx
F i j k
i j
k
i j k
In electromagnetic,
v
V
dV Q = Total charge within the volume
where v = volume charge density (C/m3)
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Scalar Field
Every point in a region of space is assigned a scalar value obtained from a scalar function f(x, y, z), then a scalar field f(x, y, z) is defined in the region, such as the pressure in atmosphere and mass density within the earth, etc.
Partial Derivatives
0
( , ,...) ( , ,...)limx
f f x x y f x y
x x
Mixed second partials 2 f f
y x y x
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Gradient
Del operator
x y z
i j k
Gradient
grad f f f
f fx y z
i j k
Gradient characterizes maximum increase. If at a point P the gradient of f is not the zero vector, it represents the direction of maximum space rate of increase in f at P.
![Page 12: Vector Calculus. Line Integral of Vector Functions 2 dl = dxi +dyj +dzk For a closed loop, i.e. ABCA, = circulation of P around L Line given by L(x(s),](https://reader033.fdocuments.in/reader033/viewer/2022061416/56649ed05503460f94bde16f/html5/thumbnails/12.jpg)
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Example Given potential function V = x2y + xy2 + xz2, (a) find the gradient of V, and (b) evaluate it at (1, -1, 3).
Solution:(a)
2 2 2(2 ) ( 2 ) 2
V V VV
x y z
xy y z x xy xz
i j k
i j k
(b) (1, 1,3)
( 2 1 9) (1 2) 6
8 6
V
i j k
= i j k
2 2 2
8 6 1ˆ (8 6 )
1018 ( 1) 6
i j ka i j k Direction of
maximum increase
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Vector Field
Electric field: E = E(x, y, z), Magnetic field : H = H(x, y, z)
Every point in a region of space is assigned a vector value obtained from a vector function A(x, y, z), then a vector field A(x, y, z) is defined in the region.
31 2
l l l l
AA A
t t t t
A
i j k
R(t1, t2) = acos t1i + asin t1j + t2k 1 1
1
sin cosa t a tt
R
i j
2t
R
k
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Divergence of a Vector FieldRepresenting field variations graphically by directed field lines - flux lines
A BP
P
P
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Divergence of a Vector FieldThe divergence of a vector field A at a point is defined as the net outward flux of A per unit volume as the volume about the point tends to zero:
0
div lim S
v
d
v
A s
A
It indicates the presence of a source (or sink)! term the source as flow source. And div A is a measure of the strength of the flow source.
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Divergence of a Vector FieldIn rectangular coordinate, the divergence of A can be calculated as
1 2 3
31 2
div ( ) ( )A A Ax y z
AA A
x y z
A A i j k i j k
For instance, if A = 3xzi + 2xyj – yz2k, then
div A = 3z + 2x – 2yz
At (1, 2, 2), div A = 0; at (1, 1, 2), div A = 4, there is a source; at (1, 3, 1), div A = -1, there is a sink.
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Curl of a Vector FieldThe curl of a vector field A is a vector whose magnitude is the maximum net circulation of A per unit area as the area tends to zero and whose direction is the normal direction of the area.
0curl lim L
s
d
s
A l
A
It is an indication of a vortex source, which causes a circulation of a vector field around it.
Water whirling down a sink drain is an example of a vortex sink causing a circulation of fluid velocity.
If A is electric field intensity, then the circulation will be an electromotive force around the closed path.
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Curl of a Vector FieldIn rectangular coordinate, curl A can be calculated as
1 2 3
3 32 1 2 1
curl x y z
a a a
A AA A A A
y z z x x y
i j k
A A
i j k
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Curl of a Vector FieldExample:
If A = yzi + 3zxj + zk, then
curl
3
(3 ) ( ) (3 ) ( )
3 2
x y z
yz zx z
z zx yz z zx yz
y z z x x y
x y z
i j k
A A
i j k
i j k