312310: Fundamental of Electrical Engineering Syllabus for Electrical Engineering 2nd Sem K Scheme MSBTE PDF

Fundamental of Electrical Engineering detailed Syllabus for Electrical Engineering (EE), K scheme PDF has been taken from the MSBTE official website and presented for the diploma students. For Subject Code, Subject Name, Lectures, Tutorial, Practical/Drawing, Credits, Theory (Max & Min) Marks, Practical (Max & Min) Marks, Total Marks, and other information, do visit full semester subjects post given below.

For all other MSBTE Electrical Engineering 2nd Sem K Scheme Syllabus PDF, do visit MSBTE Electrical Engineering 2nd Sem K Scheme Syllabus PDF Subjects. The detailed Syllabus for fundamental of electrical engineering is as follows.

Rationale

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Course Outcomes:

Students will be able to achieve & demonstrate the following COs on completion of course based learning

1. Determine various parameters used in electric circuit.
2. Use basic laws of electrical engineering in D.C. Circuits.
3. Use capacitor and battery in electrical circuits.
4. Use principles of magnetism in Magnetic Circuits.
5. Apply Laws of electromagnetism in electrical circuit and systems.

Unit I

Basic Electrical Parameters 1.1 Direct Current (DC),Alternating Current (AC), Voltage Source and Current Source: Ideal and Practical. 1.2 Electric Current, Electric Potential, Potential Difference(PD), Electro-Motive Force(EMF) 1.3 Electrical Work, Power and Energy. 1.4 Resistance, Resistivity, Conductivity, Effect of Temperature on Resistance 1.5 Types of Resistor and their application 1.6 Heating Effect, Magnetic Effect, Chemical Effect of Electric current
Suggested Learning Chalk-Board Presentations Demonstration Model Demonstration Video Demonstrations

Unit II

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Unit III

Capacitors and Battery 3.1 Capacitor, it’s construction, Parallel Plate Capacitor 3.2 Various connections of capacitor. 3.3 Energy Stored in Capacitor. 3.4 Charging and Discharging of Capacitor. 3.5 Breakdown voltage and Di-electric strength. 3.6 Applications of Capacitor 3.7 Types of battery, Construction, series and parallel connection of Battery 3.8 Charging and Discharging of Capacitor and battery
Suggested Learning Chalk-Board Video Demonstrations Presentations Model Demonstration Hands-on

Unit IV

Magnetic Circuits 4.1 Magnetic lines of force, Flux, Flux density, Magnetic flux intensity. 4.2 Magneto-Motive-Forces (MMF), Ampere Turns (AT), Reluctance, Permeance, Reluctivity. 4.3 Electric and Magnetic circuit: Series Magnetic and Parallel Magnetic Circuit. 4.4 Magnetization Curve (B-H Curve) 4.5 Magnetic Hysteresis, Hysteresis Loop, Applications.
Suggested Learning Chalk-Board Video Demonstrations Demonstration Model Demonstration Presentations

Unit V

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Practical / Tutorial Experiences

1. Preparation of Layout of Electrical Engineering Laboratory.
2. Operation of fire extinguisher and preparation of safety rules charts
3. Check lab supply system and make use of relevant electric tools for various applications.
4. Verification of Ohm’s Law
5. Read analog meters for measurement of various electrical quantities in AC/DC circuits.
6. Use of Multimeter and Clip-On meter for the measurement of AC/DC Current, Voltage and Resistance in the given circuit
7. Measurement of frequency, Time period, Peak Value and Average Value of the given A.C. wave on CRO.
8. Verification of Kirchoff’s Voltage Law
9. Verification of Kirchoff’s Current Voltage Law
10. Use of rheostat as current regulator and potential divider
11. Determination of PD,EMF and internal resistance of DC source .
12. Verification of parameters of two/three resistances connected in series connection.
13. Verification of parameters of two/three resistances connected in parallel connection.
14. Plot the charging characteristics of capacitor and find the time constant (RC).
15. Plot the discharging characteristics of capacitor and find the time constant (RC).
16. Verification of the equivalent capacitance in series connected circuits
17. Verification of equivalent capacitance of the parallel connected circuits
18. Plot the Rise characteristics of Electric current in a circuit consisting of resistance and inductance in the circuit.
19. Plot the decay characteristics of Electric current in a circuit consisting of resistance and inductance in the circuit.
20. Plot B-H curve for the given magnetic material.
21. Plot magnetization curve for magnetic core
22. Study of Hysterisis loop for the given transformer coil
23. Verification of Faraday’s Law of Electromagnetic Induction ( Statically Induced EMF)
24. Verification of Faraday’s Law of Electromagnetic Induction ( Dynamically Induced EMF)
25. Verification of Fleming’s Right Hand Rule
26. Verification of Fleming’s Left Hand Rule
27. Plot the Charging and discharging Curves of Battery

Note : Out of above suggestive LLOs – ‘*’ Marked Practicals (LLOs) Are mandatory. Minimum 80% of above list of lab experiment are to be performed. Judicial mix of LLOs are to be performed to achieve desired outcomes.

Micro Project / Self Learning

Micro project

1. Types of Electrical equipment: Prepare chart showing real-life examples indicating various types of electrical equipment.
2. Resistance: Collect samples of resistors and prepare models of simple series circuit and parallel circuit.
3. Capacitance: Collect samples of capacitors and prepare models of simple series circuit and parallel circuit.
4. Inductance: Collect samples of inductors and prepare models of simple series circuit and parallel circuit.
5. Batteries : Collect samples and specifications of various batteries of different make and prepare chart of the same.
6. EV-Batteries : Collect samples and specifications of various EV-batteries of different make and prepare chart of the same.
7. Connect battery in series connection and measure voltage across each battery and total voltage .
8. Connect battery in parallel connection and measure voltage across each battery and total voltage

Assignment

1. Numerical based on Voltage and Current Source.
2. Numerical based on Resistance, Resistivity, Effect of temperature on Resistance.
3. Numerical based on Equivalent Resistance of Series and Parallel connection of Resistances in given D.C. Circuits.
4. Numerical based on Equivalent Capacitance in given D.C. Circuits.
5. Numerical based on calculation of various parameters of given magnetic circuit.
6. Numerical based on calculation of self Inductance.
7. Numerical based on Energy Stored in Magnetic Field.

Suggested Student Activity

1. Illustrate situations wherein electrical energy is required.
2. Prepare models in the form of mini-projects.
3. Prepare power point presentation related to basics of electrical engineering.
4. Prepare a chart of electric circuit elements and relevant industrial application.
5. Prepare question bank referring old MSBTE question papers.

Note :
“These are the just suggestive topics. Faculty must design Microproject/Activities/ Assignments based on Course Outcome requirements”.

Laboratory Equipment / Software Required

For the complete Syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
.

Learning Materials / Books

1. Theraja, B. L. Theraja, A. K. A Text Book of Electrical Technology Vol-I S.Chand and Co. New Delhi 2014 ISBN: 9788121924405
2. Mittle, V. N. Basic Electrical Engg. Tata McGraw-Hill, New Delhi ISBN : 978-0-07-0088572-5
3. Hughes, Edward Electrical Technology Pearson Education, New Delhi ISBN-13: 978-0582405196
4. S. B. Lal Seksena and Kaustuv Dasgupta Fundamentals of Electrical Engineering Part-1 Cambridge University Press, New Delhi ISBN : 9781107464353
5. Jegathesan V., Vinoth Kumar K., Saravanakumar R. Basic Electrical and Electronics Engineering Wiley India, New Delhi 2014 ISBN : 97881236529513
6. Husain Ashfaq Fundamentals of Electrical Engineering Dhanpat Rai & Co. (p) Ltd-delhi, ISBN: 978-8177000436

Learning Websites & Portals

1. https://www.electrical4u.com/electrical-engineering-articles /basic-electrical/ Basic Electrical Parameters
2. https://en.wikipedia.org/wiki/Capacitor Capacitor
3. https://www.corsi.univr.it/documenti/OccorrenzaIns/matdid/ma tdid441904.pdf D.C. Circuits
4. https://www.slideshare.net/ChetanPatil396/basic-electrical-p arameters-basic-electrical-engineering Basic Electrical Parameters
5. https://www.britannica.com/science Magnetic Circuits
6. https://en.wikipedia.org/wiki/Magnetic_circuit Magnetic Circuits
7. https://en.wikipedia.org/wiki/Electromagnetic_induction Electromagnetic Induction
8. https://youtu.be/XT-UmPviH64?si=MLIZBB5BgOA2SWBk Electromagnetic Induction
9. https://youtu.be/M-QfX2fvpp4?si=xpZDAiX3-_7xrnnr Basics Magnetic Circuits
10. https://archive.nptel.ac.in/courses/117/106/117106108/ Basic Electrical Circuits
11. https://en.wikipedia.org/wiki/Electric_battery Battery

For detail Syllabus of all other subjects of Electrical Engineering, K scheme do visit Electrical Engineering 2nd Sem Syllabus for K scheme.

For all Electrical Engineering results, visit MSBTE Electrical Engineering all semester results direct links.