Key Principles of Parallel Circuit
Here are the three key principles of laws of the parallel circuit:
- Voltage : Voltage in a parallel circuit plays an important role. All components share the same voltage. This means that in any branch of a parallel circuit, the voltage drop is the same.
- Resistance : Resistances diminish to equal a smaller, total resistance. This means that the overall resistance of the circuit becomes smaller with the addition of more components resulting in a smaller overall resistance.
- Current : Branch currents add together to equal a larger, total current. This means that when we add the current of an individual branch of the circuit, we get an overall larger current in the circuit. Using Ohm’s Law for Parallel Circuits to Determine Current
Parallel Circuits
In this article, we will study these types of circuits through their circuit diagram and their working. We will also discuss the characteristics of such circuits. To give some real-life applications of these circuits, we will discuss the advantages and disadvantages of such circuits.
We will also build the base for readers through some solved examples. In the end, we will compare parallel circuits with another kind of circuits i.e. series circuits, and will conclude the article.
Table of Content
- Parallel Circuits
- Key Principles of Parallel Circuit
- Working of Parallel Circuit
- Characteristics of Parallel Circuits
- Advantages of Parallel Circuits
- Disadvantages of Parallel Circuits
- Applications of Parallel Circuits
- Solved Example of Parallel Circuits
- Difference between Series and Parallel Circuit