2031: Basic Electrical Engineering KL Diploma Syllabus for EEE 2nd Sem 2015 Revision SITTTR

Basic Electrical Engineering detailed syllabus for Electrical & Electronics Engineering (EEE) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the EEE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electrical & Electronics Engineering 2nd Sem scheme and its subjects, do visit EEE 2nd Sem 2015 revision scheme. The detailed syllabus of basic electrical engineering is as follows.

Course Outcomes:

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Specific Outcome:

MODULE I Fundamentals of electricity.

1. To understand the basic concepts of electricity. ( AC , DC, Voltage, Current, Resistance).
   1. To illustrate the structure of atoms
   2. To define voltage, current, resistance
   3. To State Ohm’s law and laws of resistances.
   4. To explain the phenomenon of electric shock.
   5. To define specific resistances.
   6. To state Kirchhoff’s voltage and current law.
   7. To compute unknown value of current using Kirchhoff’s laws.
   8. To describe the effect of temperature on resistance of a material (conductor, insulator and semiconductor).
   9. To solve simple problems related to Ohm’s law, laws of resistance and temperature coefficient of resistance.
2. To understand the concepts of power and energy.
   1. To define electric power
   2. To define energy
   3. To compute monthly electricity bill.
   4. To solve problems related to D.C and single phase power.
   5. To compute energy spent for a given period of time.

MODULE II DC circuits and network theorems

1. To understand the series, parallel and combination connections of resisters.
   1. To explain the series, parallel and combination connections of resisters.
   2. To compute the effective resistance of DC series, parallel and series parallel combination.
   3. To determine the unknown value of current and voltage in any branch of series, parallel and series parallel combination
2. To comprehend the DC network theorems and apply D.C network theorems to solve electrical circuit problems.
   1. To state the DC network theorems.
   2. To state superposition theorem.
   3. To apply superposition theorem to find the current in a particular branch of electric circuit.
   4. To state Thevenin’s theorem and understand the Thevenizing the given network.
   5. To find the Thevenin’s equivalent voltage and resistance at the output of the complex D.C circuit.
   6. To state Norton’s theorem and understand the Nortonizing the given network.
   7. To state and explain maximum power transfer theorem.
   8. To state and explain reciprocity theorem.

MODULE III Electrostatics

1. To comprehend about static electricity
   1. To state laws of electrostatics.
   2. To define permittivity ,absolute permittivity and relative permittivity
   3. To illustrate the electric field and electrostatic field.
   4. To define electric flux, density, field strength and to solve for simple problems.
   5. To distinguish between electrical potential and potential difference.
   6. To derive the expression of potential at a point in
      1. Air
      2. Medium.
   7. To understand basic concept of lightning phenomenon.
   8. To illustrate the potential gradient, breakdown voltage and dielectric strength.
2. To know the concepts and working of capacitor.
   1. To describe the construction and concepts of elementary capacitor.
   2. To derive expressions for parallel plate capacitor in a uniform dielectric medium.
   3. To illustrate the idea of fixed and variable capacitor.
   4. To solve the problems in the combination of capacitors in series, parallel and series Parallel circuits.
   5. To list the applications of capacitors.
   6. To derive the expression of energy stored in a capacitor.

MODULE IV_Magnetism and electromagnetism

1. To understand the magnetism
   1. To define permeability, absolute permeability and relative permeability.
   2. To state Coulomb’s law.
   3. To define flux, flux density, reluctance, MMF and field intensity related to magnetic circuits.
   4. To draw the B-H curve and understand the various regions in the curve.
   5. To derive the relation between MMF, flux and reluctance in the magnetic circuits.
   6. To compute the ampere turns in a given magnetic circuit.
   7. To compare magnetic circuit and electric circuit.
   8. To understand the electromagnetism
   9. To state Faraday’s laws of electromagnetic induction.
   10. To state and explain Lenze’s law.
   11. To solve problems using Faraday’s laws and Lenze’s law.
   12. To differentiate statically and dynamically induced EMF.
   13. To define and derive the expression of self inductance, mutual inductance and coefficient of coupling.
   14. To derive energy stored in an inductor and lifting power of electromagnet.
   15. To explain Fleming’s left hand rule and right hand rule.
   16. To list various application of electro magnets.

MODULE I

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MODULE II

DC power sources- Batteries–Solar PV modules- Generators. Classification and lead id battery-charging -discharging-need of battery charger-care and maintenance of batteries. Network Theorems – Kirchoff’s Laws KVL-KCL- problems. Super position theorem-problems. Thevenin’s theorem and Norton’s theorem-problems in applying Thevenine’s and Norton theorems. Maximum power transfer theorem and Reciprocity theorem.

MODULE III

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MODULE IV

Introduction-state coulombs law-magnetic permeability-absolute and relative-magnetic flux-field intensity-reluctance-mmf-magnetic circuit-BH curve-derivation of equation relating mmf, flux and reluctance.-calculation of ampere turns. magnetic circuit and electric circuit comparison-Electromagnetism-Electromagnetic inductionFaradays laws of electromagnetic induction – Lenz’s law , statically and dynamically induced e mf-Expressions. Inductor-equation for energy storage. Self induction and mutual induction- self inductance and mutual inductance. coefficient of coupling. Lifting power of electromagnet-applications of electromagnets.

Text Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
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For detailed syllabus of all other subjects of Electrical & Electronics Engineering, 2015 revision curriculum do visit EEE 2nd Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.