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Foundation of Engineering
1
Electromagnetic Fields
About MeAatif Saeed EducationM.Sc ElectronicsM.Sc Systems EngineeringMS Project Management Experience16+ Years Teaching 14+ Years Industry Projects Email [email protected]
Course OutlineChapter 1 12 (5 & 7 exclusive)Marks DistributionAssignments 10%Quizzes 10%Class Participation 5%Mid Term 25%Final 50%Final Examination Question Paper 8 Review Questions out of 12
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Course BreakupChapter #Final Exam Q. NoChapter Heading11Vector Analysis22Coulombs Law & Electric Field Intensity 33Electric Flux Density, Gauss Law, & Divergence 44Energy & Potential 65,6Dielectrics & Capacitance 87The Steady Magnetic Field 98,9Magnetic Forces, Materials & Inductance
Course BreakupChapter #Final Exam Q. NoChapter Heading1010Time-Varying Fields & Maxwells Equations 1111Transmission Lines1212The Uniform Plane Wave
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Text BookEngineering Electromagnetics 7th Edition William H. Hayt, Jr. & John A. Buck
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Chapter 1Vector Analysis
Electric field Magnetic fieldProduced by the motion of electric charges, or electric current, and gives rise to the magnetic force associated with magnets. Electromagnetic is the study of the effects of charges at rest and charges in motion
Produced by the presence of electrically charged particles, and gives rise to the electric force.
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Scalars & VectorsScalarRefers to a Quantity whose value may be represented by a Single (Positive/Negative) real number.Body falling a distance L in Time t Temperature T at any point in a bowl of soup whose co-ordinates are x, y, z L, t, T, z, y & z are all scalarsMass, Density, Pressure, Volume, Volume resistivity, Voltage
Scalars & VectorsVector A quantity who has both a magnitude and direction in space. Force, Velocity, Acceleration & a straight line from positive to negative terminal of a storage battery
Vector AlgebraAddition
Associative Law:
Distributive Law:
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Vector AlgebraCoplanar vectorsLying in a common plane
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Vector AlgebraSubtractionA B = A + (-B)MultiplicationObeys Associative & Distributive laws (r + s) (A + B) = r(A + B) + s (A + B) = rA + rB + sA + sB
Orthogonal Coordinate SystemsA coordinate system defines a set of reference directions. In a 3D space, a coordinate system can be specified by the intersection of 3 surfaces at each and every point in space.The origin of the coordinate system is the reference point relative to which we locate every other point in space.
Orthogonal Coordinate SystemsA position vector defines the position of a point in space relative to the origin. These three reference directions are referred to as coordinate directions or base vectors, and are usually taken to be mutually perpendicular (orthogonal) . In this class, we use three coordinate systems:CartesiancylindricalSpherical
Rectangular Coordinate SystemIn Cartesian or rectangular coordinate system a point P is represented by coordinates (x,y,z) All the three coordinates represent the mutually perpendicular plane surfaces
The range of coordinates are< x< < y< < z<
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Point Locations in Rectangular Coordinates
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Differential Volume Element
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Orthogonal Vector Components
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Orthogonal Unit Vectors
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Vector Representation in Terms of Orthogonal Rectangular Components
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Vector Expressions in Rectangular Coordinates
General Vector, B: Magnitude of B:Unit Vector in the Direction of B:
Example
Vector Components and Unit VectorsExampleGiven points M(1,2,1) and N(3,3,0), find RMN and aMN.
FieldFunction, which specifies a particular quantity everywhere in the regionTwo types: Vector Field has a direction feature pertaining to it e.g. Gravitational field in space and Scalar Field has only magnitude e.g. Temperature
The Dot Product
Commutative Law:
Vector Projections Using the Dot Product
B a gives the component of Bin the horizontal direction(B a) a gives the vector component of B in the horizontal direction
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Operational Use of the Dot Product
GivenFind
where we have used:
Note also:
The three vertices of a triangle are located at A(6,1,2), B(2,3,4), and C(3,1,5). Find: (a) RAB; (b) RAC; (c) angle
BAC at vertex A; (d) the vector projection of RAB on RAC.
Drill Problem
Solution
Continued
Cross Product
Operational Definition of the Cross Product in Rectangular Coordinates
Therefore:
OrBegin with:
where
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The Cross ProductExample
Given A = 2ax3ay+az and B = 4ax2ay+5az, find AB.
Circular Cylindrical CoordinatesPoint P has coordinatesSpecified by P(z)The coordinate represents a cylinder of radius with z axis as its axis. The coordinate (the azimuthal angle) is measured from x axis in xy plane. Z is same as in Cartesian coordinatesThe range of coordinates are 0 < 0 < 2 < z <
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Orthogonal Unit Vectors in Cylindrical Coordinates
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Relationship between (x, y, z) and (r, f, z).
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Point P and unit vectors in the cylindrical coordinate system.
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Differential Volume in Cylindrical Coordinates
dv = dddz
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Point Transformations in Cylindrical Coordinates
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The Cylindrical Coordinate System
Dot products of unit vectors in cylindrical and rectangular coordinate systems
Transform the vector B into cylindrical coordinates:
Example
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Transform the vector B into cylindrical coordinates
Start with:
Problem
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Then:
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Finally:
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The r coordinate represents a sphere of radius r centered at origin . The coordinate represents the angle made by the cone with z-axis. The coordinate is the same as cylindrical coordinate.The range of coordinates are 0 r < 0
0 < 2Point P has coordinatesSpecified by P(r)Spherical Coordinates
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Point P and unit vectors in spherical coordinates.
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Relationships between space variables (x, y, z), (r, q, f), and (r, f, z).
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Differential Volume in Spherical Coordinates
dv = r2sindrdd
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Dot Products of Unit Vectors in the Spherical and Rectangular Coordinate Systems
The Spherical Coordinate SystemExample
Given the two points, C(3,2,1) and D(r = 5, = 20, = 70), find: (a) the spherical coordinates of C; (b) the rectangular coordinates of D.
Example: Vector Component Transformation
Transform the field, , into spherical coordinates and components