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How to Solve a Series Circuit

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Co-authored by Ralph Childers

Last Updated: June 8, 2024

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A series circuit is the simplest type of circuit: a single loop with no branching paths. The electrical charge leaves the positive terminal of the power supply, passes through each resistor or other components in turn, then returns to the negative terminal. The properties of series circuits are not hard to learn, but it can take some thinking to figure out how to use them.

Part 1

Part 1 of 2:

Resistance, Voltage, and Current

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1
Review Ohm's Law. Most problems involve three characteristics of a circuit: resistance R, voltage V, and current I. Ohm's Law tells you that they are related in a simple way: V = IR. If you get stuck at any point and don't have enough information for the steps below, look for a chance to use Ohm's Law:
- If you know any two of these values, use Ohm's Law to solve for the third. For example, if you know the resistance and voltage of a circuit, rearrange V = IR to I = V / R, and plug in the known values to solve for I, the current.
- Always use values form the same part of the circuit. If you are trying to solve for the resistance of a single resistor, you will need to know the voltage and current for that resistor. Do not use the voltage for the whole circuit.
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2
Add up to the total resistance. In a series circuit, all of the current passes through every resistor in turn. This means each resistor contributes its full resistance to the circuit. If you know each individual resistance value, just add them together to find the total resistance of the circuit. ^{[1]
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- Example 1: A series circuit has two resistors. One resistor R ₁ has 3Ω (ohms) of resistance, and the second resistor R ₂ has 6Ω of resistance. Find the total resistance.
  
  The total resistance of the circuit is equivalent to the sum of the two individual resistances:
  $R_{{total}}=R_{1}+R_{2}=3+6=9$ Ω.
- On a circuit diagram, a resistor looks like a zig-zag in the wire.
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3
Find the total voltage. The voltage drop across the total circuit is determined by the voltage source, typically a battery. This is often labeled on your circuit diagram, next to two or more parallel lines of different length. ^{[2]
X
Research source} The voltage drops across each component of the series circuit add up to the total voltage drop across the circuit. ^{[3]
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- Example 2: A series circuit is powered by a 9 volt battery and has two resistors R ₁ and R ₂ . The voltage drop across R ₁ is 5V. What is the voltage drop across R ₂ ?
  
  $V_{{total}}=V_{1}+V_{2}$
  $9=5+V_{2}$
  $V_{2}=9-5=4$ volts.
- Old-fashioned textbooks may use E to represent voltage instead of V. You may also see ΔV, meaning "change in voltage." The symbol Δ is the Greek letter delta, and means "change."
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4
Calculate the current. Electrical charge flows constantly around the circuit, creating the current. A series circuit only has one path for this flow, so the current is the same at all points on the circuit. (There are no branches to split the current.) As long as you know the voltage and resistance at any point on the circuit (or for the circuit as a whole), you can use Ohm's Law to find the current: I = V / R.
- Example 3: A series circuit plugged into a 220V source is connected to several light bulbs. You measure the voltage drop across a light bulb with resistance 100 Ω and get a result of 80V. How much current flows through this circuit?
  
  You know the values of V and R for the light bulb, so you can use Ohm's Law to solve for the current:
  I = 80V / 100Ω = 0.8 A (amps)
  Because the current is the same anywhere on a series circuit, the answer is 0.8 amps.
  Be careful: you cannot use the circuit's total voltage drop 220V. Ohm's Law only works if you use values for the same portion of the circuit, and this problem does not tell you the total resistance of the circuit.
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5
Keep track with a chart. Some tough problems require you to calculate the values of multiple components before you can solve for the whole circuit. It may help to fill out a "VIR" chart as you go, with a separate row for each component and the whole circuit. Here's an example for a circuit with three components A, B, and C:
- ${\begin{bmatrix}&{\underline {{\mathbf {V}}}}&{\underline {{\mathbf {I}}}}&{\underline {{\mathbf {R}}}}\\{\mathbf {A}}:&V_{{a}}&I_{{a}}&R_{{a}}\\{\mathbf {B}}:&V_{{b}}&I_{{b}}&R_{{b}}\\{\mathbf {C}}:&V_{{c}}&I_{{c}}&R_{{c}}\\{\mathbf {Total}}:&V_{{total}}&I_{{total}}&R_{{total}}\end{bmatrix}}$
- Fill out the chart with all values provided in the problem.
- Ohm's Law works with values in the same row. For example, $V_{{b}}=I_{{b}}R_{{b}}$ . Use this to complete any rows that have 2 out of 3 cells filled.
- Use the properties of series circuits to fill blank spaces in columns:
  - $R_{{total}}=R_{{a}}+R_{{b}}+R{c}$
  - $V_{{total}}=V_{{a}}+V_{{b}}+V{c}$
  - $I_{{total}}=I_{{a}}=I_{{b}}=I_{{c}}$

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Part 2

Part 2 of 2:

Power and Energy

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1
Understand power. Power is a measurement of how quickly the circuit draws electrical energy from the battery or outlet. Power and energy are useful quantities to know if you are trying to power another device with the electrical circuit, or if you are calculating your electricity bill.
- In the classroom, however, you do not need to find the power and energy unless the problem asks you to. If the problem only tells you to fill out a circuit diagram, use the method above to find resistance, voltage, and current.
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2
Learn the formula for electrical power. Power in an electrical circuit depends on two quantities: current and voltage. A higher current (faster electrical charge) transfers electrical energy more quickly, increasing power. A higher voltage means each unit of charge transfers more energy as it moves, also increasing power. You can sum up both relationships in one formula: P = VI . ^{[4]
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- All the formulas in this section work for the circuit as a whole, or for individual components. Just make sure to use quantities that refer to the same portion of the circuit.
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3
Solve for power using resistance. To find the power dissipated across a resistor, use the formula $P=I^{{2}}R$ , or the formula $P={\frac {V^{{2}}}{R}}$ . You can derive both these formulas by combining P=VI and Ohm's Law: ^{[5]
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- We know V = IR from Ohm's Law, so we can replace V with IR in other equations:
  $P=VI$ → $P=(IR)(I)=I^{{2}}R$
- Rearrange Ohm's Law to I = V / R and use the same trick:
  $P=VI$ → $P=(V)({\frac {V}{R}})={\frac {V^{{2}}}{R}}$
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4
Multiply power by time to find energy. The longer a circuit is on, the more energy it consumes. Multiply power and time together to find energy.
- The equations above give you a power result in watts. Multiply by seconds to get an energy result in Joules.

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If the internal resistance of the Power source was given (r), Then add it to the total resistance of the circuit (V=I*(R+r))

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Total voltage of circuit = sum of the voltages of all resistors connected in series.

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Warnings

Do not rely on these approaches for a parallel circuit, where the wire divides into two or more branches. Ohm's Law still applies to those, but many of the other formulas do not.

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About This Article

Co-authored by:

Electrical Professional

This article was co-authored by Ralph Childers . Ralph Childers is a master electrician based in the Portland, Oregon area with over 30 years of conducting and teaching electrical work. Ralph received his B.S. in Electrical Engineering from the University of Louisiana at Lafayette and holds an Oregon Journeyman Electrical License as well as electrician licenses in Louisiana and Texas. This article has been viewed 296,517 times.

5 votes - 96%

Co-authors: 26

Updated: June 8, 2024

Views: 296,517

Categories: Electrical and Electronic Circuits | Electromagnetism

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Thanks to all authors for creating a page that has been read 296,517 times.

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