Basic to Advance Electrical Engineering – Part 3

Teacher

Md Istekhar Alam

Course Features

Lectures 42
Quizzes 0
Duration 50 hours
Skill level All levels
Language English
Students 6
Assessments Yes

WEEK 1 7
- Lecture1.1
  Capacitor, capacitance & its importance, types of capacitor
- Lecture1.2
  Current voltage relationship of a capacitor
- Lecture1.3
  Capacitance of parallel plate capacitor
- Lecture1.4
  Relative permittivity or dielectric constant, dielectric strength, capacitor with dielectric
- Lecture1.5
  Parallel plate capacitor with conducting & dielectric slab
- Lecture1.6
  Energy stored in a charged capacitor
- Lecture1.7
  Test 1
WEEK 2 7
- Lecture2.1
  Energy density, combination of capacitor, joining two charged capacitor
- Lecture2.2
  Important geometrical shape of capacitors, transient voltage or current
- Lecture2.3
  Charging & Discharging of capacitor
- Lecture2.4
  Numerical on capacitance
- Lecture2.5
  MCQ on equivalent capacitance, voltage division
- Lecture2.6
  Other numerical problems
- Lecture2.7
  Test 2
WEEK 3 7
- Lecture3.1
  Magnet, types of magnet, artificial magnet, poles of magnet
- Lecture3.2
  Laws of magnetic force, magnetic field, magnetic effect of electric current, magnetism terminologies
- Lecture3.3
  Permeability – absolute & relative, Magnetic hysteresis, relation between B & H
- Lecture3.4
  Classification of magnetic material
- Lecture3.5
  Magnetic force on a current carrying conductor
- Lecture3.6
  Force on a moving electric charge in uniform magnetic field & path followed by that electric charge
- Lecture3.7
  Test 3
WEEK 4 7
- Lecture4.1
  Force between parallel conductors, torque on a current loop
- Lecture4.2
  Biot-savart law, ampere circuital law
- Lecture4.3
  Flux due to various current carrying conductor arrangements
- Lecture4.4
  Moving coil galvanometer, conversion of galvanometer into ammeter & voltmeter
- Lecture4.5
  Magnetic circuit
- Lecture4.6
  Numerical & MCQ
- Lecture4.7
  Test 4
WEEK 5 7
- Lecture5.1
  Analysis of magnetic circuit & terminologies
- Lecture5.2
  Air gap, Calculation of ampere turn
- Lecture5.3
  Different magnetic circuit, magnetic leakage flux
- Lecture5.4
  B-H curve magnetisation curve, calculation from BHcurve
- Lecture5.5
  Hysteresis loop, loss & steinmetz hysteresis law
- Lecture5.6
  Numerical & MCQ
- Lecture5.7
  Test 5
WEEK 6 7
- Lecture6.1
  Faraday’s law of electromagnetic induction, statically & dynamically induced emf
- Lecture6.2
  Self-inductance, Self-inductance of a solenoid
- Lecture6.3
  Mutual inductance, mutual inductance between two coils
- Lecture6.4
  Magnetically coupled coils & coefficient of coupling
- Lecture6.5
  Inductors in series & parallel, equivalent inductance, energy stored in an inductor
- Lecture6.6
  R-L DC circuit- closing & braking, rise and decay of current, time constant, Eddy current & losses
- Lecture6.7
  Test 6