Basic of Electrical Engineering -

Lesson Plan Duration : July2018 to Dec 2018
Name of the Faculty : Ms. Shalini singh
Discipline : ME
Semester : 1st
Subject : BASIC OF ELECTRICAL ENGINEERING
Lesson Plan Duration : July2018 to Dec 2018
Week	Theory		Practical
Week	Lecture Day	Topic	Practical Day	Topic
1st	1	UNIT I DC Circuits: Ohm's Law and Kirchhoff‟s Laws	1	To verify KCL and KVL
	2	Analysis of series and Parallel Circuits
	3	Series-parallel circuits excited by independent voltage sources
2nd	4	Power and energy	2	To verify Thevenin’s & Norton's theorems
	5	Electromagnetism:- Faradays Laws, Lenz's Law, Fleming's Rules
	6	Statically and dynamically induced EMF; Concepts of self inductance
3rd	7	Mutual inductance and Coefficient of Coupling	3	To verify maximum power transfer theorem
	8	Energy stored in magnetic fields; Hysteresis and Eddy current losses
	9	Asssignment on D.C Circuits
4th	10	UNIT II Network Theorems: Superposition	4	To verify Superposition theorems
	11	Numerical on Superposition Theorem
	12	Thevenin Theorem
5th	13	Numerical on Thevenin Theorem	5	To study frequency response of a series R-L-C circuit and determine resonant frequency & Q- factor for various values of R, L, C
	14	Norton’s Theorem
	15	Numerical on Nortons Theorem
6th	16	Maximum Power transfer Theorem	6	To study frequency response of a parallel R-L-C circuit and determine resonant frequency & Q -Factor for various values of R, L, C
	17	Numerical on Maximum Power Transfer theorem
	18	Tellegan’s and Millman’s theorems
7th	19	Assignment on Network Theorems	7	To perform polarity test on single phase transformer
	20	UNIT III AC Circuits: Single Phase A.C. Circuits :-Generation of sinusoidal voltage.
	21	Definition of average value, root mean square value, form factor and peak factor of sinusoidal voltage and current
8th	22	Phasor representation of alternating quantities	8	To perform O.C. and S.C. test on single phase transformer
	23	Analysis with phasor diagrams of R and L Circuits.
	24	Analysis with phasor diagrams of C and RL Circuits.
9th	25	Analysis with phasor diagrams of RC and RLC Circuits.	9	To study various type of electrical instruments
	26	Real power, Reactive power, Apparent power
	27	Power factor, Series Circuits.
10th	28	Parallel and Series- Parallel Circuits	10	To measurement of power and power factor in a three phase system by two wattmeter method
	29	Series and Parallel resonance
	30	Selectivity, Bandwidth and Q factor, Earthing
11th	31	Three Phase A.C. Circuits:- Necessity and Advantages of three phase systems
	32	Generation of three phase power
	33	Definition of Phase sequence, Balanced supply and Balanced load
12th	34	Relationship between line and phase values of balanced star and delta connections
	35	Power in Balanced Three Phase Circuits
	36	Measurement of power by two wattmeter method
13th	37	Assignment on A.C Circuits.
	38	UNIT IV Electrical Machines: Transformers: - Principle of operation and construction of single phase transformers
	39	EMF Equation of a Transformer
14th	40	Losses, Efficiency and Voltage Regulation of a Transformer.
	41	Numericals on Transformer.
	42	Transformer on Load and Phasor diagram of transformer on load.
15th	43	Principle of operation of an Auto Transformer. Applications
	44	Synchronous Generators: - Principle of operation and constructional features, Applications
	45	DC Machines:- Principle of Operation and constructional features, Classification and Applications
16th	46	Three Phase Induction Motor:- Principle of Rotating Magnetic Field, Principle of Operation of 3-Phase Induction Motor
	47	Starting Methods and Applications of Three Phase Induction Motors.
	48	Assignment on Electrical Machines.