This law applies to electric conduction through good conductors and may be stated as follows: “The ratio of potential difference between any two points on a conductor to the current flowing between them is constantly provided the temperature of the conductor do not change.” The voltage across any conductor is directly proportional to the current flowing through it for temperature remains constant.
In this “DC Circuits – Fundamentals of Electrical and Electronics” you will learn about the following topics:
- Ohm’s Law
- Voltage Divider Rule
- Current Divider Rule
- Kirchhoff’s Current and Voltage Laws
- Kirchhoff’s Point Law or Current Law (KCL)
- Kirchhoff’s Mesh Law or Voltage Law (KVL)
- Determination of Voltage Sign
- Sign of Battery EMF, Sign of IR drop
- Loop and Nodal Equations
- Maxwell’s Loop Current Method
- Determination of Current Sign
- Nodal Analysis
- Thevenin’s Theorem (For Both Theory and Numerical)
- How to Thevenize a circuit?
- Norton’s Theorem
- Maximum Power Transfer Theorem
This article DC Circuits – Fundamentals of Electrical and Electronics is contributed by Ritesh Thapa, a student of LA GRANDEE International College (LGIC).
==== Point to Note ====
This article DC Circuits – Fundamentals of Electrical and Electronics is contributed by Kabita Adhikari, a student of LA GRANDEE International College (LGIC).
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BCA 2nd Semester Fundamentals of Electrical and Electronics Notes Pdf:
- Unit I: Electric Circuit Elements
- Unit III: Single Phase AC Circuit
- Unit IV: Semiconductor Materials
- Unit V: The PN Junction Diode
- Unit VI: Bipolar Junction Transistor (BJT)
- Unit VII: Junction Field Effect Transistor (JFET)
- Unit VIII: Metal Oxide Semiconductor Field Effect Transistor (MOSFET)
- Unit IX: The Operational Amplifier
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