- ⊞⊟1. Basic Circuit Elements
- ⊞⊟2. Resistance
- ⊞⊟3. Ohms Law, Power and Energy
- ⊞⊟4. Series DC Circuits
- 4.1. Series Circuit
- 4.2. Circuit Instrumentation
- 4.3. Series Circuit Power Distribution
- 4.4. Series Voltage Sources
- 4.5. Kirchhoffs Voltage Law
- 4.6. Voltage Division in a Series Circuit
- 4.7. Interchanging Series Elements
- 4.8. Circuit Analysis Notation
- 4.9. Internal Resistance of Voltage Sources
- 4.10. Voltage Regulation
- 4.11. Loading Effects of Instruments
- ⊞⊟5. Parallel DC Circuits
- ⊞⊟6. Series Parallel Circuits
- ⊞⊟7. Methods of Analysis
- ⊞⊟8. Network Theorems
- ⊞⊟9. Capacitors
- ⊞⊟1. Basic Circuit Elements
- ⊞⊟2. Resistance
- ⊞⊟3. Ohms Law, Power and Energy
- ⊞⊟4. Series DC Circuits
- 4.1. Series Circuit
- 4.2. Circuit Instrumentation
- 4.3. Series Circuit Power Distribution
- 4.4. Series Voltage Sources
- 4.5. Kirchhoffs Voltage Law
- 4.6. Voltage Division in a Series Circuit
- 4.7. Interchanging Series Elements
- 4.8. Circuit Analysis Notation
- 4.9. Internal Resistance of Voltage Sources
- 4.10. Voltage Regulation
- 4.11. Loading Effects of Instruments
- ⊞⊟5. Parallel DC Circuits
- ⊞⊟6. Series Parallel Circuits
- ⊞⊟7. Methods of Analysis
- ⊞⊟8. Network Theorems
- ⊞⊟9. Capacitors
Electrical Circuit Analysis
Circuit analysis is the process of finding all the currents and voltages in a network of connected components. We look at the basic elements used to build circuits, and find out what happens when elements are connected together into a circuit.
This course deals with the fundamentals of electric circuits, their components and the mathematical tools used to represent and analyze electrical circuits. By the end of the course, the student must be able to confidently analyze and build simple electric circuits.

Fig. No. 1: An electrical circuit to be analyzed.