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Physics: Introduction to Electromagnetic theory
Subject code: BSC-PHY-101G
ECE/ME
IIst Semester
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Introduction of subject
• Electromagnetic Theory covers the basic principles of electromagnetism:
– experimental basis, electrostatics, magnetic fields of steady currents, motional e.m.f. and electromagnetic induction, Maxwell's equations, propagation and radiation of electromagnetic waves, electric and magnetic properties of matter, and conservation laws.
– This is a graduate level subject which uses appropriate mathematics but whose emphasis is on physical phenomena and principles.
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Syllabus UNIT – I: Electrostatics in vacuum and linear dielectric medium
Calculation of electric field and electrostatic potential for a charge distribution; Divergence and curl of electrostatic field; Laplace’s and Poisson’s equations for electrostatic potential Boundary conditions of electric field and electrostatic potential; energy of a charge distribution and its expression in terms of electric field. Electrostatic field and potential of a dipole. Bound charges due to electric polarization; Electric displacement; boundary conditions on displacement.
UNIT – II: Magnetostatics
Bio-Savart law, Divergence and curl of static magnetic field; vector potential and calculating It for a given magnetic field using Stokes’ theorem; the equation for the vector potential and its solution for given current densities. Magnetostatics Ina linear magnetic medium: Magnetization and associated bound currents; auxiliary magnetic field; Boundary conditions on B and H. Solving for magnetic field due to simple magnets like a bar magnet; magnetic susceptibility and ferromagnetic, paramagnetic and diamagnetic materials.
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UNIT – III: Faraday’s law and Maxwell’s equations
Faraday’s law in terms of EMF produced by changing magnetic flux; equivalence of Faraday’s law and motional EMF; Lenz’s law; Electromagnetic breaking and its applications; Differential form of Faraday’s law; energy stored in a magnetic field.Continuity equation for current densities; Modified equation for the curl of magnetic field to satisfy continuity, equation; displacement current and magnetic field arising from time-dependent electric field; Maxwell’s equation in vacuum and non-conducting medium; Energy in an electromagnetic field; Flow of energy and Poynting vector.
UNIT – IV: Electromagnetic waves
The wave equation; Plane electromagnetic waves in vacuum, their transverse nature and polarization; relation, between electric and magnetic fields of an electromagnetic wave; energy carried by electromagnetic waves and, examples. Momentum carried by electromagnetic waves and resultant pressure. Reflection and transmission of electromagnetic waves from a non-conducting medium-vacuum interface for normal incidence.
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Future scope In a vast populated country like India, the requirement of energy is never ending. In recent years the country has witnessed huge requirement of electric energy and this has created numerous opportunities such as • Bajaj International Private Ltd • Crompton Greaves Limited • ABB • Reliance Power Ltd • ONGS (Oil and Natural Gas Corporation) • PGCIL (Power Grid Corporation of India Limited) • CIL (Coal India Limited) • BHEL (Bharat Heavy Electricals Limited) • SAIL (Steel Authority of India Limited) • Siemens Ltd • Wipro Lighting Ltd
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Unit 1:Electrostatics in vacuum and linear dielectric medium
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TABLE OF CONTENTS
1. Unit 1:Electrostatics in vacuum and linear dielectric medium
i. Elelctric field, vector form
ii. Electric Field – Continuous Charge Distribution
2. Charge distribution
3. Charge densities
4. Charge Distribution of electric potential
5. Divergence and curl of electrostatic field
6. Gauss Law
7. Electrostatic boundary condition
8. The Work Done in Moving a charge
9. The Energy of a Point Charge Distribution
10. A Dipole in an Electric Field
11. Electric polarization
12. Electric displacement.
13. Future Scope and relevance to industry.
14. NPTEL/other online link
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• An electric field is said to exist in the region of space around a charged object
– This charged object is the source charge
• When another charged object, the test charge, enters this electric field, an electric force acts on it.
• The electric field is defined as the electric force on the test charge per unit charge.
Electric Field
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Electric Field: Vector Form
• From Coulomb’s law, force between the source and test charges, can be expressed as
• Then, the electric field will be
2ˆo
e e
qqk
rF r
2ˆe
e
o
qk
q r
FE r
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Electric Field – Continuous Charge Distribution
• Point charge – charge with zero size
• Continuous charge – object with charge distribution
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• For the individual charge elements
• Because the charge distribution is continuous
2ˆ
e
qk
r
E r
2 20ˆ ˆlim
i
ie i e
qi i
q dqk k
r r
E r r
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Charge distribution
• If the charge is uniformly distributed over a volume, surface, or line, the amount of charge, dq, is given by
– For the volume: dq = ρ dV
– For the surface: dq = σ dA
– For the length element: dq = λ dℓ
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Charge Densities
• Volume charge density: when a charge is distributed evenly throughout a volume – ρ ≡ Q / V with units C/m3
• Surface charge density: when a charge is distributed evenly over a surface area – σ ≡ Q / A with units C/m2
• Linear charge density: when a charge is distributed along a line – λ ≡ Q / ℓ with units C/m
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Charge Distribution of electric potential
• Potential for a point charge
0
1( )4
qV P
R
pR r r R
• Potential for a collection of charge
0 1
1( )4
ni
ii
qV P
R
i i pR r r Ri
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• Potential of a continuous distribution
for volume charge for a line charge for a surface charge
q d q d q da
0
1( )4
V P dR
0
1( )4
V P dR
0
1( )4
V P daR
• Corresponding electric field
20
1 ˆ( )4
rE P dR
20
ˆ14
( )r
dR
E P
20
ˆ14
( ) r daR
E P
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Divergence and Curl of Electrostatic Fields
• Field of a point charge rrE ˆ
4
1)(
2
0 r
q
arrows field lines:
E lines/area ofnumber
of direction E
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1.Field lines emanate from a point charge symmetrically in all
directions.
2.Field lines originate on positive charges and terminate on
negative ones.
3.They cannot simply stop in midair, though they may extend
out to infinity.
4.Field lines can never cross.
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Gauss Law
• Gauss’s Law in integral form 0
1encE da Q
Turn integral form into a differential one , by applying the
divergence theorem
0 0
( )
1 ( )
1
surface volume
volume
enc
E da E d
Q d
Gauss’s law in differential form
0
1E
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The Divergence of E
• Calculate the divergence of E directly
20
ˆ1( ) ( )
4
RE r d
R
The r-dependence is contained in R
20
ˆ1( ) ( )
4all space
RE r r d
R
Thus
3
0 0
1 14 ( ) ( ) ( )
4E r r r d r
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Curl of E
rE ˆ4
1 :chargepoint
2
0
r
q
0aE d0 E
i
iEEfor trueremain
General properties
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Poisson’s Eq. & Laplace’s Eq.
0
2E V V
E V
Poisson’s Eq. 0
2V
0 2 0V Laplace’s eq.
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Electrostatic Boundary Condition
The above equations are differential or integral.
For a unique solution, we need boundary conditions. (e.q. ,
V()=0 )
(boundary value problem. Dynamics: initial value problem.)
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Boundary condition at surface with charge
0 0
encQ A
surface
E da
above belowE A E A
0above belowE E
0E dl 0E
E‖ above= E‖ below
+∥ 0
ˆabove belowE E n
║
┴
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• Potential Boundary condition
00
b
above below a
abV V E d
above belowV V
0
ˆabove belowE E n
E V ˆV V nn
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The Work Done in Moving a charge
A test charge Q feels a force Q E
To move this test charge, we have to apply a force
conservative
F QE
The total work we do is
b b
a aW F d Q E d Q V b V a
WV b V aQ
So, bring a charge from to P, the work we do is
( ) ( ) ( )W Q V P V QV P
( ) 0V
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The Energy of a Point Charge Distribution
It takes no work to bring in first charges
1 0W
Work needed to bring in q2 is :
1 12 2 2
0 12 0 12
1 1[ ] ( )4 4
q qW q q
R R
1 2 1 23 3 3
0 13 0 23 0 13 23
1 1 1[ ] ( )4 4 4
q q q qW q q
R R R R
Work needed to bring in q3 is :
Work needed to bring in q4 is :
31 24 4
0 14 24 34
1 [ ]4
qq qW q
R R R
for q1
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Total work
W=W1+ W2+ W3
+W4 1 3 2 3 3 41 2 1 4 2 4
0 12 13 23 14 24 34
14
q q q q q qq q q q q q
R R R R R R
01
14
nj
iijj
qV P
R
j i
0 1 1
14
n ni j
iji j
q q
R
ij jiR R
01 1
1 12 4
n nj
iiji j
R
0 1 1
18
n ni j
iji j
q q
R
1
12
n
i ii
W q V P
Dose not include the first charge
j i j i
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The Energy of a Continuous Charge Distribution
0ρ E
q d
Volume charge density
0 0τ2 2
E Vd EV d E V d
surface
VE da
20 ( )2
surface volume
VE da E d
F.T.for
E
1τ
2W Vd
surface
20
τ2
all space
W E d
EV E V E V
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0
1
4
qV
R
24q R Sol.1:
2
0 0
1 1 1 1 1
2 2 2 4 8
q q qW Vd Vda da
A R R
Example: Find the energy of a uniformly charged spherical
shell of total charge q and radius R
Sol.2: 2
0
1ˆ
4
qE r
r
22
2 40(4 )
qE
r
2
2 20 02 4
1sin
2 2 (4 )
outer
spaceo
qW E d r d d dr
r
2 2
2 200
1 12 2
832 R
q qdr
Rr
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A Dipole in an Electric Field
Although the net force on the dipole from the field
is zero, and the center of mass of the dipole does
not move, the forces on the charged ends do
produce a net torque on the dipole about its
center of mass.
The center of mass lies on the line connecting the
charged ends, at some distance x from one end and
a distance d -x from the other end.
The net torque is:
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A Dipole in an Electric Field: Potential Energy
Potential energy can be associated with the orientation
of an electric dipole in an electric field.
The dipole has its least potential energy when it is in its
equilibrium orientation, which is when its moment p is
lined up with the field E.
The expression for the potential energy of an electric
dipole in an external electric field is simplest if we
choose the potential energy to be zero when the angle
(Fig.22-19) is 90°.
The potential energy U of the dipole at any other
value of can be found by calculating the work W done
by the field on the dipole when the dipole is rotated to
that value of from 90°.
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Electric polarization
Ep
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Ep
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The Electric Displacement
Total charge bf
Free charge (at our disposal) f
Bound charge (induced, comes along) b
Electric displacement (auxiliary field) PED 0
enclosedff Qd ,aDD 0 D But in general
Boundary conditions
||||||||||
belowabovebelowabovefbelowabove PPDDDD
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Future Scope and relevance to industry
https://ieeexplore.ieee.org/document/7368644 https://link.springer.com/article/10.1007/s12274-017-1842-6 https://www.nasa.gov/mission_pages/station/research/experiments/2325.html
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NPTEL/other online link
https://nptel.ac.in/courses/115104088/5 https://nptel.ac.in/courses/117103065/10 https://nptel.ac.in/courses/117103065/12 https://nptel.ac.in/courses/117103065/9