JNTU Kakinada EEE Syllabus PDF - 2017-2018 StudyChaCha

#1
July 6th, 2012, 01:36 PM
 laveena46 Guest Posts: n/a

I am doing EEE(Electronic & Electrical Engineering) course. Sir, I am looking for exam syllabus of EEE of JNTU Kakinada. Can you please provide me PDF file of EEE syllabus?
#2
July 6th, 2012, 05:05 PM
 Super Moderator Join Date: Dec 2011 Posts: 40,525
Re: JNTU Kakinada EEE Syllabus PDF

Here I am uploading a file which provides syllabus of JNTU Kakinada EEE Syllabus of both the year semester wise. Below is the attachment which provides syllabus
Attached Files
 JNTU kakinada EEE syllabus .pdf (454.7 KB, 360 views)
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#3
February 20th, 2014, 02:07 PM
 Super Moderator Join Date: Jun 2013 Posts: 42,294
Re: JNTU Kakinada EEE Syllabus PDF

Jawaharlal Nehru Technological University Kakinada is a well known educational institution situated in Kakinada …… it is offer admission in many UG,PG and other courses …

Here I am giving you syllabus for B tech Electrical and Electronics Engineering in word file with it so you can get it easily…

ELECTROMAGNETIC FIELDS
Objective:
The objective of this course is to introduce the concepts of electric field and magnetic fields and their applications useful for Electrical Machine Analysis and Power Systems

UNIT – I Electrostatics:
Electrostatic Fields – Coulomb’s Law – Electric Field Intensity (EFI) – EFI due to a line and a surface charge – Work done in moving a point charge in an electrostatic field – Electric Potential – Properties of potential function – Potential gradient – Guass’s law – Application of Guass’s Law – Maxwell’s first law, div( D )=ρv

UNIT – II Conductors and Dipole:
Laplace’s and Poison’s equations – Solution of Laplace’s equation in one variable. Electric dipole – Dipole moment – potential and EFI due to an electric dipole – Torque on an Electric dipole in an electric field – Behavior of conductors in an electric field – Conductors and Insulators.

UNIT – III Dielectric & Capacitance:
Electric field inside a dielectric material – polarization – Dielectric – Conductor and Dielectric – Dielectric boundary conditions, Capacitance – Capacitance of parallel plate and spherical and co-axial capacitors with composite dielectrics – Energy stored and energy density in a static electric field – Current density – conduction and Convection current densities – Ohm’s law in point form – Equation of continuity

UNIT – IV Magneto Statics:
Static magnetic fields – Biot-Savart’s law – Oesterd’s experiment - Magnetic field intensity (MFI) – MFI due to a straight current carrying filament – MFI due to circular, square and solenoid current – Carrying wire – Relation between magnetic flux, magnetic flux density and MFI – Maxwell’s second Equation, div(B)=0.

UNIT – V Ampere’s circuital law and its applications:
Ampere’s circuital law and its applications viz. MFI due to an infinite sheet of current and a long current carrying filament – Point form of Ampere’s circuital law – Maxwell’s third equation, Curl (H)=Jc, Field due to a circular loop, rectangular and square loops.

UNIT – VI Force in Magnetic fields:
Magnetic force - Moving charges in a Magnetic field – Lorentz force equation – force on a current element in a magnetic field – Force on a straight and a long current carrying conductor in a magnetic field – Force between two straight long and parallel current carrying conductors – Magnetic dipole and dipole moment – a differential current loop as a magnetic dipole – Torque on a current loop placed in a magnetic field

UNIT – VII Self and Mutual inductance:
Self and Mutual inductance – determination of self-inductance of a solenoid and toroid and mutual inductance between a straight long wire and a square loop wire in the same plane – energy stored and density in a magnetic field.

UNIT – VIII Time Varying Fields:
Time varying fields – Faraday’s laws of electromagnetic induction – Its integral and point forms – Maxwell’s fourth equation, Curl (E)=-∂B/∂t – Statically and Dynamically induced EMFs – Simple problems -Modification of Maxwell’s equations for time varying fields – Displacement current – Poynting Theorem and Poynting vector.

TEXT BOOKS:
1.“Engineering Electromagnetics” by William H. Hayt & John. A. Buck Mc. Graw-Hill Companies, 7th Editon.2006.

REFERENCE BOOKS
1.“ Principles of Electro Magnetics” by Sadiku, Oxford Publications,4th edition
2.“Introduction to Electro Dynamics” by D J Griffiths, Prentice-Hall of India Pvt.Ltd, 2nd edition

II Year B.Tech. Electrical and Electronics Engineering. II-Sem.

ELECTRICAL CIRCUIT ANALYSIS-II
Objective:
This course aims at study of Three Phase systems, Transient analysis, Network synthesis and Fourier analysis for the future study and analysis of Power Systems
UNIT-I Balanced Three phase circuits
Three phase circuits: Phase sequence- Star and delta connection-Relation between line and phase voltages and currents in balanced systems-Analysis of balanced three phase circuits- Measurement of Active and Reactive power in balanced Three phase systems.

UNIT-II Unbalanced Three phase circuits
Analysis of Three Phase unbalanced circuits-Loop Method- Application of Millman’s Theorem- Star Delta Transformation Technique – Two Wattmeter Method of measurement of three phase power.

UNIT-III D.C Transient Analysis
Transient response of R-L, R-C, R-L-C series circuits for D.C excitation-Initial conditions-solution method using differential equation and laplace transforms, Response of R-L & R-C & R-L-C networks to pulse excitation.

UNIT-IV A.C Transient Analysis
Transient response of R-L, R-C, R-L-C series circuits for sinusoidal excitations-Initial conditions-Solution method using differential equations and laplace transforms

UNIT-V Two Port Networks
Two port network parameters – Z, Y, ABCD and hybrid parameters and their relations, Cascaded networks, poles and zeros of network functions.

UNIT-VI Network synthesis
Positive real function, Basic Synthesis procedure, LC Immittance functions, RC Impedance functions, RL impedance function or RC admittance functions, foster and cauer methods.

UNIT-VII Fourier analysis of A.C Circuits
Fourier theorem- Trigonometric form and exponential form of Fourier series – conditions of symmetry- line spectra and phase angle spectra- Analysis of Electrical Circuits to Non sinusoidal periodic waveforms.

UNIT-VIII Fourier Transforms
Fourier Integrals and Fourier Transforms – properties of Fourier Transforms and Application to Electrical Circuits.

Text Books:
1. Engineering Circuit Analysis by William Hayt and Jack E.Kimmerley,Mc Graw Hill Company,6th edition
Reference Books:
1. Network Theory by A. Sudhakar and Shyammohan S Palli, Tata McGraw- Hill Publications,first edition
2. Network Analysis by N.C.Jagan, C.Lakshmi Narayana, BS Publications,2nd edition
3. Network Synthesis: Van Valkenburg; Prentice-Hall of India Private Ltd.
4. Introduction to circuit analysis and design by Tildon Glisson, Jr. Springer Publications.

II Year B.Tech. Electrical and Electronics Engineering. II-Sem.

ELECTRICAL MACHINES LAB – I

Any 10 of the following experiments are to be conducted:

1. Magnetization characteristics of DC shunt generator. Determination of critical field resistance and critical speed.

2. Load test on DC shunt generator. Determination of characteristics.

3. Brake test on DC shunt motor. Determination of performance curves.

4. Load test on DC compound generator. Determination of characteristics.

5. Hopkinson’s test on DC shunt machines. Predetermination of efficiency.

6. Fields test on DC series machines. Determination of efficiency.

7. Swinburne’s test and Predetermination of efficiencies as Generator and Motor

6. Speed control of DC shunt motor by Field and armature Control

9. Brake test on DC compound motor. Determination of performance curves.

10. Load test on DC series generator. Determination of characteristics.

11. Retardation test on DC shunt motor. Determination of losses at rated speed.

12. Separation of losses in DC shunt motor.

II Year B.Tech. Electrical and Electronics Engineering. II-Sem.

ELECTRICAL CIRCUITS LAB
Any 10 of the following experiments are to be conducted:

1) Verification of Thevenin’s and Norton’s Theorems
2) Verification of Superposition theorem and Maximum Power Transfer Theorem
3) Verification of Compensation Theorem
4) Verification of Reciprocity , Millmann’s Theorems
5) Locus Diagrams of RL and RC Series Circuits
6) Series and Parallel Resonance
7) Determination of Self, Mutual Inductances and Coefficient of coupling
8) Z and Y Parameters
9) Transmission and hybrid parameters
10) Measurement of Active Power for Star and Delta connected balanced loads
11) Measurement of Reactive Power for Star and Delta connected balanced loads
12) Measurement of 3-phase Power by two Wattmeter Method for unbalanced loads

Contact details :
JNTUK
040 2315 8661 ‎•

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