Content Beyond Syllabus:
Medical Applications of EMF
UNIT 1:
Gauss Law and Applications
Sources of EMF, Effects of EMF and coordinate systems
Sources of EMF, Effects of EMF and coordinate systems
Gradient, Divergence and curl
Divergence and stokes theorem
Coloumbs law and EFI due to line charge
EFI due to circular charged disc
Coloumbs law and EFI due to line charge
Tutorial on coordinate systems
Tutorial on EFI due to circular charged disc
Gradient, Divergence and curl
UNIT 2:
Electric field and equipotential plots
Electric field in free space, conductors and dielectrics
Dielectric polarization and boundary conditions
Tutorial-Electric Potential
Energy Density, Laplace and Poissons equations
Tutorial-Poissons and laplace equations
Tutorial-Boundary conditions
UNIT 3:
Scalar and vector potential, magnetic force, torque
Lorentz force, Biot-savarts law, Amperes circuital law
H due to straight, circular, infinite sheet
B in free space, conductor, multiple media
Magnetic materials, boundary conditions, poissons equation
Tutorial-Scalar & Vector potential
Inductance, Energy density
Tutorial on Energy density
UNIT 4:
Relation between field and circuit theory
Tutorial-Magnetic circuits
Tutorial-Transformer and motional emf
Tutorial-Displacement current
Tutorial-Conduction current
Tutorial-Maxwells equations
Tutorial on Maxwells equations
Transformer and Motional EMF
UNIT 5:
Electromagnetic wave generation
Waves in free space and lossy dielectrics
Waves in Loss Dielectrics
Waves in lossless dielectrics and conductors