Electromagnetic Field Theory (EMT)nanotechlab.itu.edu.pk/wp-content/uploads/2017/01/...Topics to be...
Transcript of Electromagnetic Field Theory (EMT)nanotechlab.itu.edu.pk/wp-content/uploads/2017/01/...Topics to be...
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Electromagnetic Field Theory (EMT)
Lecture # 5
Vector Calculus-I
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Topics to be Covered:
Differential Length, Area, and Volume
Line, Surface, and Volume Integrals
Del Operator
Gradient of a Scalar
Divergence of a Vector and Divergence Theorem
Curl of a Vector and Stokes's Theorem
Laplacian of a Scalar
Classification of Vector Fields
Vector Calculus
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Differential elements in length, area, and volume are useful in vector
calculus
Differential Elements – Cartesian
Coordinate System
Differential displacement or
length is given by:
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Differential normal areas are given by:
Differential volume is given by:
Differential Elements – Cartesian
Coordinate System
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These differential elements are very important as they will be
referred to again and again throughout the course
The student is encouraged not to memorize them, however, but to
learn to derive them from the figures.
Differential Elements – Cartesian
Coordinate System
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Differential displacement or length is given as:
Differential Elements – Cylindrical
Coordinate System
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Differential normal area is given as:
Differential volume is given as:
Differential Elements – Cylindrical
Coordinate System
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Differential displacement or length is given as:
Differential Elements – Spherical
Coordinate System
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Differential
displacement or
length is given as:
Differential Elements – Spherical
Coordinate System
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Differential normal area is:
Differential volume is:
Differential Elements – Spherical
Coordinate System
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Three Orthogonal Coordinate Systems:
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Summary of the Transformation between Coordinate Systems:
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Topics to be Covered:
Differential Length, Area, and Volume
Line, Surface, and Volume Integrals
Del Operator
Gradient of a Scalar
Divergence of a Vector and Divergence Theorem
Curl of a Vector and Stokes's Theorem
Laplacian of a Scalar
Classification of Vector Fields
Vector Calculus
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The familiar concept of integration will now be extended to cases when
the integrand involves a vector
By a line we mean the path along a curve in space
The line integral is the integral of the tangential component of A along
curve L:
Line Integral
Also called line integral of A
around L
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One possible application of this integral would be to compute the work
W that would be required to push the cart with a force F from point ‘a’
to point ‘b’ along a prescribed path as shown in Fig below.
Line Integral
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This integral states that no work is expended in moving the cart if the
direction of the force applied to the object is perpendicular to the path
of the motion.
If we were to push the cart completely around the path so it returned to
the original point, we would call this a closed line integral and indicate
it with a circle at the center of the integral a given below.
𝑭 ∙ 𝒅𝒍
Line Integral
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If the path of integration is a closed curve such as abca in Figure below,
the line integral becomes a closed contour integral
This is called the circulation of A around L
Line Integral
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Given a vector field A, continuous in a region containing the smooth
surface S, we define the surface integral or the flux of A through S as:
Surface Integral
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1) Electric Flux
2) Magnetic Flux
Surface Integral-Examples
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A closed path defines an open surface whereas a closed surface
defines a volume
If the scalar ρv is the volume density of a certain quantity, then the
volume integral of ρv over the volume v is:
The physical meaning of a line, surface, or volume integral depends on
the nature of the physical quantity represented by A or ρv
Volume Integral
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Volume Integral-Example
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Topics to be Covered:
Differential Length, Area, and Volume
Line, Surface, and Volume Integrals
Del Operator
Gradient of a Scalar
Divergence of a Vector and Divergence Theorem
Curl of a Vector and Stokes's Theorem
Laplacian of a Scalar
Classification of Vector Fields
Vector Calculus
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In addition to the integral relations for vectors, there are also
differential operations that will be encountered frequently in our
journey through electromagnetic theory.
The del operator, written as 𝛻, is a vector differential operator
In Cartesian coordinates:
This vector differential operator, otherwise known as the gradient
operator, is not a vector in itself
But when it operates on a scalar function, it results in a vector
DEL Operator
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The del operator will be used in defining different quantities in
subsequent sections
1) The gradient of a scalar V, written, as
2) The divergence of a vector A, written as 𝜵 ∙ 𝑨
3) The curl of a vector A, written as 𝜵 × 𝑨
4) The Laplacian of a scalar V, written as 𝜵𝟐𝑉
DEL Operator
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We have:
Hence:
By substitution:
DEL Operator – Cylindrical Coordinate
System
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We have:
Hence:
By substitution:
DEL Operator – Spherical Coordinate
System