Importance  Electrical Engineering
List of importance for Second year  Sem 3 and Sem 4
Semester 3
Maths III
COMPLEX VARIABLES
CauchyRiemann Equation (Cartisian Coordinates) and constants C.R Equations in PolarCoordinates Harmonic functions Find Analytic function when real and imaginary part are given. Find Analytic function when imaginary part are given. Find Analytic function when U+V and UV is given. Find Analytic function when harmonic function is given. Orthogonal curves (To find orthogonal tragectory means to find imaginary part equation) LAPLACE TRANSFORM Normal L.T  Standard form Evaluation of standard L.T Change of scale property First shifting theorem Evaluation of such integrals. (put exact value of s) Evaluation of such integrals. (put the value of s) Effect of multiply by 't' Effect of Divide by 't' Problems on simple Inverse Laplace transform Methods of obtaining I.L.T a) use of standard results b) Use of shifting theorem c)Method of partial fraction d)Use of change of scaleproperty e)Convolution Theorem f) Use of differentiation. g)Use of Integration Laplase transform of periodic function 
FOURIER SERIES
Fourier Expansion for f(x) in Interval Fourier series in (c, c+2l) Fourier series of even and odd function(l,l) Half range series COMPLEX FORMS OF FOURIER SERIES Complex forms in (c, c+2l) and other intervals. Orthogonal and Orthonormal Fourier Integral theorem Fourier Sine and Cosine Integrals VECTOR ALGEBRA Scalar product Scalar triple product Vector product Volume of Parallelopiped Volume of tertahedron Vector triple product BESSEL FUNCTION Solution of Bessel Differential Equation: Series method, recurrence relation, properties of Bessel function of order +1/2 and 1/2 Bessel Fourier series of functions 
E.D.C
1. Explain the operation of C type filter in full wave rectifier with all necessary diagrams and wave forms
2. Explain thermal runway and stabilization 3. Explain criterion for the selection of emitter bypass capacitor in a CE amplifier. 4. Derive the expression for the voltage gain, current gain, input impedance and output impedance of CB amplifier 5. What is MOSEFT? Explain the construction and characteristics of NChannel MOSEFT with the help of suitable diagram. 6. Explain the working of CS FET amplifier 7. Explain how the amplification factor, input impedance, output impedance and bandwidth are modified with negative feedback. 8. What is Darlington pair? What are its features? How to bias the pair? Derive expression for its ac parameters. 
9. Explain FET as differential amplifier.
10. Explain the AC analysis of Dual input unbalanced output differential amplifier. 11. Explain Barkhausen criterion for sustained oscillation. 12. Explain UJT as a relaxation oscillation in detail. Find frequency of oscillator 13. Derive the equation for frequency of oscillation of Coplitt’s oscillator. Also derive the condition for sustained oscillation. 14. Explain the difference between LC and RC oscillators. Give examples of each of oscillators with frequencies. 15. Explain Zener Diode as a voltage regulator. 16. Explain VI characteristic and application of zener diode. 17. Explain VI characteristic and application of schottky diode. 18. Explain construction and working of Nchannel JFET 19. Thermal stabilization and compensation 20. Numerical based on JFET amplifier. 
C.n.p.g
1. Define the following terms : Demand factor, Load factor, Diversity factor, Utilization factor, Plant capacity factor.
2. Explain in brief, the base load and peak load plant 3. Explain fluidized bed combustion process. 4. What are the important factor that governs selection of site for stream power plant? What are its advantages and disadvantages of stream power plant when compared to hydroelectric power plant. 5. Explain in brief : 1) Hydrograph 2) Flow duration curve 6. Compare nuclear fission and fusion 7. Explain working of liquid metal fast breeder reactor with diagram. 
8. What are the advantages and disadvantages of gas turbine power plant
9. Draw and explain general layout of diesel power plant 10. Explain in brief : Basic principle of power generation in PV cell. 11. What are the factors taken into consideration, while selecting the location of wind farm? 12. Explain in brief : Power generation using biomass 13. Explain load curve and load duration curve. 14. Different types of hydro power plant. 15. What are the significance of 2 part tarrif and 3 part tarrif. 16. What is solar pond technology ? Explain its working. 17. Explain the operation and the working of vertical and horizontal axis wind turbine. 
E.N
1. Find Thevenin’s equivalent across ( given terminal – Circuit diagram will be given)
2. State and explain Milman’s theorem 3. Write the mesh equation for the circuit (Diagram will be given) 4. Discuss in brief the significance of dot convention. 5. Write Incidence matrix, tieset matrix and cutest matrix for Graph (Any graph will be given) 6. Explain the principle of duality with example. 7. Write a note on time constant in transient circuits. 8. Determination of the loop currents (Sums) 9. Derive the sdomain equivalents for inductor with initial I(o) and capacitor with initial voltage Vo. 10. Find the condition of symmetry for Zparameter 11. Numerical based on Pz point, RL circuit, RLC circuit, Norton, Mesh analysis. 

E.E.M
Chapter No 1 : Principles of Analog Instruments
1. Explain the types of error in electrical measurements 2. Classify frequency meter. Explain any one in detai 3. Describe the construction and working of PMMC instruments. Derive the equation for deflection if the instrument is spring controlled Chapter No 2 : Principles of Digital Instruments 1. Explain resolution and sensitivity of digital meter 2. Explain the working principle of digital Voltmeter, Ammeter and frequency meter 3. Write a short note on Digital energy meter. 4. Write short note on Digital frequency meter. Chapter No 3 : Measurement of Resistance 1. Explain a suitable bridge to measure low resistance. Chapter No 4 : Measurements of Inductance and capacitance 1. Explain Anderson bridge for measuring self inductance. Draw a neat circuit diagram and phasor diagram. Derive expression for the self inductance under balance condition state advantage and disadvantage. 2. Explain De Sauty’s Bridge with circuit diagram, Phasor diagram, derive the expression for measuring the capacitance of a capacitor and also write in detail how the bridge can be modified to measure dielectric loss of capacitor. 
Chapter No 5 : Potentiometer
Chapter No 6 : Transducers

Semester 4
E.P.S  Importance
Chp1: Introduction
Chp2: Transmission Line Parameters
Chp3: Performance of Transmission Lines

Chp4: Overhead Transmission Line
Chp5: Underground Cable
Chp6: Grounding and Safety techniques

Maths iv  Importance
MODULE 1
Chapter No 1 : Calculus of variation Euler's Langrange Equation and its solutions. Independent of variables Independent of differentiation of a variable Find extremal (Types problems) RayleighRitz method. MODULE 2 Chapter No 2 : Linear Algebra vector Space Vectors in ndirectional vector space (dot product, cross product, norm & Distance property) Cauchyschwartz inequality Orthogonal Subspaces Gram Schmidt Method 
MODULE 3
Chapter No 3 : Linear Algebra Matrix Theory Prove Eigen values of Hermitian matrix are real Eigen values and Eigen vectors Functions of Square matrix , Derogatory and nonderogatory matrix Quadratic forms CayleyHamilton theorem MODULE 4 Chapter No 4 : Complex VariablesIntegration Complex Integration Taylor's and Laurent's series Zero's,singularities,Poles and Residues Cauchy's Residue theorem 
e.M i  Importance  (Now in semester 3)
Chp1: Basics of Magnetism

Chp4: DC Motors
Chp5: Testing of DC Motors

s.P  Importance
Chp1: Introduction to Signals and Systems

Chp5: Analysis using Ztransform

A.d.i.c importance
Chapter No 1 : OPAMP Fundamentals
Chapter No 2 : Applications of OPAMP
Chapter No 3 : Active Filters
Chapter No 4 : Linear Voltage Regulators
Chapter No 5 : TimerIC 555
Chapter No 6 : Data Converters
Chapter No 7 : Number systems
Chapter No 8 : Logic gates and Boolean Algebra
Chapter No 9 : Logic families

Chapter No 10 : Simplification techniques
Chapter No 11 : Combinational Logic circuits
Chapter No 12 : Hazards
Chapter No 13 : FlipFlops
Chapter No 14 : Registers
Chapter No 15 : Counters

NMOT importance
Chp1: Basic of 'C' Language

Chp4: Curve Fitting
