When it comes to understanding circuits, many people struggle to find the applied voltage in a parallel circuit. This can seem like a daunting task, but with a little bit of knowledge, you can easily calculate the applied voltage in a parallel circuit.
If you’re a beginner in this field, let’s break down the basics. A parallel circuit is a type of electrical circuit where two or more components are connected by a common circuit path and must share the load voltage. This means the voltage across each component must be the same. The advantage of a parallel circuit is that the current running through each component is the same, making it easier to control and maintain.
Now, let's learn how to calculate the applied voltage in a parallel circuit. We can use the equation V = IR, where V stands for voltage, I stands for current, and R stands for resistance. In this case, the current remains the same throughout the circuit. The next step is to determine the total resistance of the parallel circuit, which is the sum of all the individual resistors; this is equal to the reciprocal of the sum of the reciprocals of each resistor. From here, we can calculate the applied voltage using the formula V = I/Rt.
Let’s use an example to illustrate how this works. Suppose that you have a circuit with two resistors; one has a resistance of 10 Ohms and the other has a resistance of 40 Ohms. We can first calculate the total resistance of the parallel circuit; this is equal to the sum of the reciprocal of each resistor. The reciprocal of 10 Ohms is 0.1, and the reciprocal of 40 Ohms is 0.025. Adding these together yields 0.125. The total resistance is then equal to 1/0.125, which equals 8 Ohms. Hence, the total resistance in the circuit is 8 Ohms.
From here, we can calculate the applied voltage. If the current in the circuit is 2 Amps, then the applied voltage can be calculated using the equation V = I/Rt. In this case, V = 2A/8Ω, which is equal to 0.25V. Therefore, the applied voltage in this parallel circuit is 0.25V.
As you can see, finding the applied voltage in a parallel circuit can be done quite easily when you understand the basics of the equation V = IR. By calculating the total resistance of the circuit and using the equation, you can quickly determine the applied voltage in any given parallel circuit.
Voltage In A Parallel Circuit
For The Parallel Circuit In Fig 2 70 Find Magnitude Of Cur Each Branch And Total What Is Phase Angle Between Applied Voltage
Solved Assignment Questions 1 A Resistance Of Ra Is Chegg Com
How To Solve Parallel Circuits 10 Steps With Pictures Wikihow
How To Solve Parallel Circuits 10 Steps With Pictures Wikihow
How To Calculate Voltage In Parallel Circuit Example Problems And Detailed Facts
Series Parallel Circuit Problem With Answer Key
How To Solve Parallel Circuits 10 Steps With Pictures Wikihow
Solved B A Two Branch Parallel Circuit Containing Chegg Com
Voltage In Parallel Circuits Sources Formula How To Add Electrical4u
How To Calculate The Voltage Of A Parallel Circuit Quora
Simple Parallel Circuits Series And Electronics Textbook
How To Solve Parallel Circuits 10 Steps With Pictures Wikihow
Series And Parallel Circuits Learn Sparkfun Com
Dc Circuit Examples
Series And Parallel Circuits Learn Sparkfun Com
Series And Parallel Ap Physics 1
How To Calculate Voltage In Parallel Circuit Example Problems And Detailed Facts
Resistors In Parallel Understanding Cur And Voltage Networks Technical Articles
Solved Question 19 Phase Angle Is The Difference In Phas