Stuff Sector
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S.Santhosh (Admin)
Important questions
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Don't waste my hardwork and valuable time
Don't share as screenshot kind request
based on views next exams questions are yet to be updated
most viewed dept will get update at first So Dont screenshot and share
most viewed dept will get update at first So Dont screenshot and share
Electromagnetic field (EMF)
same qns given as last time bcoz these are very finite questiosn choosen by me .so no neeed tochange the question in this list read all given and get good marks
UNIT -1
1. Divergence,strokes ,guass theorem ***
RareDon't share as screenshot -Stuff sector2. Helmholtz theorem
Unit -2
1. Poisson's and Laplace's equations,
2. Boundary conditions**
3. Electric field intensity**
Rare
4. Energy stored in Electro static field
Don't share as screenshotUNIT-31. Biot- savart law**2. Magnetic field intensity of current carrying conductor
3.Boundary conditions of magnetic fields
Rare
4.Magniude based probelm
Unit -4
1. Maxwell equation**
Rare
2. Normal incidence at a plane dielectric boundaryDon't share as screenshot -Stuff sector
UNIT-5
1. Plane waves in lossless media, Plane waves in lossy media
2. Poynting theorem ****Very important questions are bolded and may be asked based on this topic
PART-C
1.Compulsory Questions {a case study where the student will have to read and analyse the subject }mostly asked from unit 2, 5(OR) a situation given and you have to answer on your own
Electromagnetic field (EMF)
same qns given as last time bcoz these are very finite questiosn choosen by me .so no neeed tochange the question in this list read all given and get good marks
UNIT -1
1. Divergence,strokes ,guass theorem ***
Rare
Rare
Don't share as screenshot -Stuff sector
2. Helmholtz theorem
Unit -2
1. Poisson's and Laplace's equations,
2. Boundary conditions**
3. Electric field intensity**
Rare
4. Energy stored in Electro static field
Unit -2
1. Poisson's and Laplace's equations,
2. Boundary conditions**
3. Electric field intensity**
Rare
4. Energy stored in Electro static field
Don't share as screenshot
UNIT-3
1. Biot- savart law**
2. Magnetic field intensity of current carrying conductor
3.Boundary conditions of magnetic fields
Rare
4.Magniude based probelm
Unit -4
1. Maxwell equation**
Rare
3.Boundary conditions of magnetic fields
Rare
4.Magniude based probelm
Unit -4
1. Maxwell equation**
Rare
2. Normal incidence at a plane dielectric boundary
Don't share as screenshot -Stuff sector
UNIT-5
1. Plane waves in lossless media, Plane waves in lossy media
2. Poynting theorem **
UNIT-5
1. Plane waves in lossless media, Plane waves in lossy media
2. Poynting theorem **
**Very important questions are bolded and may be asked based on this topic
PART-C
1.Compulsory Questions {a case study where the student will have to read and analyse the subject }
mostly asked from unit 2, 5(OR) a situation given and you have to answer on your own
don't waste my hardwork and valuable time
As Engineer i think you know how to respect another
Share it as link alone . don't share it as screenshot or any text material if u found this anywhere kindly report me . #Admin WhatsAppContact uS for more updates
*These questions are expected for the exams This may or may not be asked for exams All the best.... from admin Santhosh
Thanks for your love and support guys keep supporting and share let the Engineers know about Us and leave a comment below for better improvements If there is any doubt feel free to ask me I will clear if I can or-else I will say some solutions ..get me through WhatsApp for instant updates ~$tuff$£ctorSYllabuS UNIT I INTRODUCTION
Electromagnetic model, Units and constants, Review of vector algebra, Rectangular, cylindrical
and spherical coordinate systems, Line, surface and volume integrals, Gradient of a scalar field,
Divergence of a vector field, Divergence theorem, Curl of a vector field, Stoke's theorem, Null
Electric field, Coulomb's law, Gauss's law and applications, Electric potential, Conductors in static
Electric field, Coulomb's law, Gauss's law and applications, Electric potential, Conductors in static
identities, Helmholtz's theorem
UNIT II ELECTROSTATICS
Boundary conditions, Capacitance, Parallel, cylindrical and spherical capacitors, Electrostatic
electric field, Dielectrics in static electric field, Electric flux density and dielectric constant,
and Ohm's law, Electromotive force and Kirchhoff's voltage law, Equation of continuity and
energy, Poisson's and Laplace's equations, Uniqueness of electrostatic solutions, Current density Kirchhoff's current law
UNIT III MAGNETOSTATICS
Magnetic circuits, Behaviour of magnetic materials, Boundary conditions, Inductance and
Lorentz force equation, Law of no magnetic monopoles, Ampere's law, Vector magnetic potential, Biot-Savart law and applications, Magnetic field intensity and idea of relative permeability,
functions, Electromagnetic boundary conditions, Wave equations and solutions, Time-harmonic
inductors, Magnetic energy, Magnetic forces and torques U
IV TIME-VARYING FIELDS AND MAXWELL's EQUATIONS
Faraday's law, Displacement current and Maxwell-Ampere law, Maxwell's equations, Potential fields
a plane conducting boundary, Normal incidence at a plane dielectric boundary
UNIT V PLANE ELECTROMAGNETIC WAVES
Plane waves in lossless media, Plane waves in lossy media (low-loss dielectrics and good
conductors), Group velocity, Electromagnetic power flow and Poynting vector, Normal incidence at a plane dielectric boundary
Contact uS for more updates
*These questions are expected for the exams This may or may not be asked for exams
All the best.... from admin Santhosh
Thanks for your love and support guys keep supporting and share let the Engineers know about Us and leave a comment below for better improvements
If there is any doubt feel free to ask me I will clear if I can or-else I will say some solutions ..get me through WhatsApp for instant updates ~$tuff$£ctorUNIT I INTRODUCTION
Electromagnetic model, Units and constants, Review of vector algebra, Rectangular, cylindrical
and spherical coordinate systems, Line, surface and volume integrals, Gradient of a scalar field,
Divergence of a vector field, Divergence theorem, Curl of a vector field, Stoke's theorem, Null
Electric field, Coulomb's law, Gauss's law and applications, Electric potential, Conductors in static
Electric field, Coulomb's law, Gauss's law and applications, Electric potential, Conductors in static
identities, Helmholtz's theorem
UNIT II ELECTROSTATICS
Boundary conditions, Capacitance, Parallel, cylindrical and spherical capacitors, Electrostatic
electric field, Dielectrics in static electric field, Electric flux density and dielectric constant,
and Ohm's law, Electromotive force and Kirchhoff's voltage law, Equation of continuity and
energy, Poisson's and Laplace's equations, Uniqueness of electrostatic solutions, Current density Kirchhoff's current law
UNIT III MAGNETOSTATICS
Magnetic circuits, Behaviour of magnetic materials, Boundary conditions, Inductance and
Lorentz force equation, Law of no magnetic monopoles, Ampere's law, Vector magnetic potential, Biot-Savart law and applications, Magnetic field intensity and idea of relative permeability,
functions, Electromagnetic boundary conditions, Wave equations and solutions, Time-harmonic
inductors, Magnetic energy, Magnetic forces and torques U
IV TIME-VARYING FIELDS AND MAXWELL's EQUATIONS
Faraday's law, Displacement current and Maxwell-Ampere law, Maxwell's equations, Potential fields
a plane conducting boundary, Normal incidence at a plane dielectric boundary
UNIT V PLANE ELECTROMAGNETIC WAVES
Plane waves in lossless media, Plane waves in lossy media (low-loss dielectrics and good
conductors), Group velocity, Electromagnetic power flow and Poynting vector, Normal incidence at a plane dielectric boundary
and spherical coordinate systems, Line, surface and volume integrals, Gradient of a scalar field,
Divergence of a vector field, Divergence theorem, Curl of a vector field, Stoke's theorem, Null
Electric field, Coulomb's law, Gauss's law and applications, Electric potential, Conductors in static
Electric field, Coulomb's law, Gauss's law and applications, Electric potential, Conductors in static
identities, Helmholtz's theorem
UNIT II ELECTROSTATICS
Boundary conditions, Capacitance, Parallel, cylindrical and spherical capacitors, Electrostatic
electric field, Dielectrics in static electric field, Electric flux density and dielectric constant,
and Ohm's law, Electromotive force and Kirchhoff's voltage law, Equation of continuity and
energy, Poisson's and Laplace's equations, Uniqueness of electrostatic solutions, Current density Kirchhoff's current law
UNIT III MAGNETOSTATICS
Magnetic circuits, Behaviour of magnetic materials, Boundary conditions, Inductance and
Lorentz force equation, Law of no magnetic monopoles, Ampere's law, Vector magnetic potential, Biot-Savart law and applications, Magnetic field intensity and idea of relative permeability,
functions, Electromagnetic boundary conditions, Wave equations and solutions, Time-harmonic
inductors, Magnetic energy, Magnetic forces and torques U
IV TIME-VARYING FIELDS AND MAXWELL's EQUATIONS
Faraday's law, Displacement current and Maxwell-Ampere law, Maxwell's equations, Potential fields
a plane conducting boundary, Normal incidence at a plane dielectric boundary
UNIT V PLANE ELECTROMAGNETIC WAVES
Plane waves in lossless media, Plane waves in lossy media (low-loss dielectrics and good
conductors), Group velocity, Electromagnetic power flow and Poynting vector, Normal incidence at a plane dielectric boundary