Basic Electrical Engineering
Mumbai University - Mechanical Engineering - SEM I


1500 3000 50 % OFF


  • Lectures
  • 257 Lectures
  • Videos
  • 41.97 Hrs Video

Course Description

This course is introduced for you:-

1. To provide knowledge on fundamentals of D.C. circuits and its applications.

2. To impart knowledge on fundamentals of single phase A.C. circuits and its applications.

3. To inculcate knowledge on the basic operation and the performance of single phase transformer.

4. To impart knowledge on fundamentals of three Phase A.C. circuits and its applications.

5. To provide knowledge on fundamentals of DC machines.

What are the requirements?

A. Concept of E.M.F., Potential Difference, Current, Ohm’s Law, Resistance, Resistivity, Series and Parallel Connections, Power Dissipation in Resistance.

B. Knowledge of Capacitors with uniform and composite medium, energy stored in capacitor.

C. Basic knowledge of Magnetic Field, Faraday’s Laws of Electromagnetic induction, Hysterics and eddy current losses, energy stored in an inductor.

What am I going to get from this course?

You will be able to…

1.      To evaluate D.C. circuits using network theorems.

2.      To evaluate single phase AC circuits.

3.      To illustrate constructional features and operation of single phase transformer.

4.      To evaluate three phase AC circuits.

5.      To illustrate working principle of DC machines.

6.      To conduct experiments on D.C. circuits and AC circuits.

Curriculum

Total Chapters: 7 257 Videos

Chapter No. 1 : DC Circuits

   

Resistance in Electronics

Preview 2.54

Series Resistors

Preview 3.48

Parallel Resistors

3.43

Finding Equivalent Resistance - Problem-1

4.41

Finding Equivalent Resistance - Problem-2

5.02

Finding Equivalent Resistance - Problem-3

5.59

Finding Equivalent Resistance - Problem-4

9.23

Finding Equivalent Resistance - Problem-5

6.08

Finding Equivalent Resistance - Problem-6

8.33

Finding Equivalent Resistance - Problem-7

6.37

Series and Parallel Circuits

5.44

Delta to Star Conversion

14.49

Star to Delta Conversion

9.03

Star Delta Transformation - Problem 1

4.06

Star Delta Transformation - Problem 2

6.29

Star Delta Transformation - Problem 3

8.22

Star Delta Transformation - Problem 4

11.53

Star Delta Transformation - Problem 5

13.44

Star Delta Transformation - Problem 6

10.59

Star Delta Transformation - Problem 7

7.03

Star Delta Transformation - Problem 8

6.29

Star Delta Transformation - Problem 9

12.08

Ideal Voltage Source

4.06

Practical Voltage Source

5.04

Ideal Current Source

3.24

Practical Current Source

5.17

Current to Voltage Source Transformation

3.33

Voltage to Current Source Transformation

3.39

Importance Point about Current Source

2.34

Importance Point about Voltage Source

3.32

Source Transformation - Problem 1

6.21

Source Transformation - Problem 2

7.14

Source Transformation - Problem 3

7.18

Source Transformation - Problem 4

10.58

Voltage Divider (VDR)

4.47

Voltage Divider Problem (VDR)

4.48

Current Divider (CDR)

5.42

Current Divider Problem (CDR)

7.01

Calculation of Power Consumed by Resistance

7.11

Calculation of Power Consumed by Resistance - Problem 1

3.16

Calculation of Power Consumed by Resistance - Problem 2

6.22

Kirchoff's Current Law (KCL)

4.56

Kirchoff's Voltage Law (KCL)

7.29

Kirchoff's Current Law (KCL) Problem

6.01

Kirchoff's Voltage Law (KCL) Problem

10.11

Problem on KVL and KCL

10.35

Mesh Analysis

6.19

Mesh Analysis -Problem 1

4.37

Mesh Analysis -Problem 2

12.39

Mesh Analysis -Problem 3

7.12

Mesh Analysis -Problem 4

4.49

Mesh Analysis -Problem 5

6.19

Supermesh Analysis

14.25

Supermesh Analysis - Problem 1

6.18

Supermesh Analysis - Problem 2

6.37

Nodal Analysis