### Electrical Laws

Ohm's Law Coulomb's Law Kirchoff's Law Faraday's Law Ampere's Law Joule's Law Lenz's Law Biot Savart Law

### Electrical Theorems

Thevenin Theorem Nortons Theorem Super Position Theorem Reciprocity Theorem Compensation Theorem Maximum Power Transfer Millmans Theorem Tellegans Theorem

### Electrical Rules

Flemings Left Hand Rule Flemings Right Hand Rule Cork Screw Rule

### Electrical Network

Network Terminologies

### Electrical Terms

Electrical Terms Materials Capacitors Resistors Inductor Self Inductance Mutual Inductance Magnetic Flux Magnetic Characteristics EMF MMF Permeability Sources Reluctance Torque

### Electrical Transformer

Transformers How Transformer Works Transformer Classifications Types Transformers Core Type Transformers Ideal Transformers Parallel Operation Transformer Cooling Transformer Forces Transformer Losses Transformer Testing Transformer Bushing Transformer Windings

### Types of Transformer

Auto Transformer Current Transformer Potential Transformer Rectifier Transformer Converter Transformer

### AC Motor

Stator and Rotor Three Phase Induction Motor Induction Motor Transformer

### AC Generator

AC Generators Alternator Stator Construction Alternator Rotor Construction Alternator - Parallel Operation Synchronizing AC Alternator Losses in Alternator

### DC Motors

DC Motors Commutator Braking of Electric Motors Dynamic Rheostatic Braking Regenerative Braking Plugging Braking Speed Control DC Motor Losses DC Motors

### Types Of DC Motor

DC Motors Types DC Series Motors DC Shunt Motors DC Compound Motor Brushless DC Motors Permanent Magnet DC Motor

### Starter For DC Motors

Starters DC Motors

### DC Generator

DC Generator Types DC Generators Sparking DC Generators Why Generator Overloading Losses DC Generators

### Parallel Operation

PO - DC Generator Series DC Generator Shunt DC Generator Compound DC Generator
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- Steve Jobs

# Superposition Theorem

Superposistion theorem states that in any linear network containing more than one source of emf, then the response in any element is equal to the algebraic sum of the responses caused by individual sources acting alone, while other sources are non-operative which are replaced by short circuit and open circuit across their terminal.

## Limitations of Superposition Theorem

• Superposition theorem is valid only for linear systems

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