Ohm's Law and Electrical Power - Formulas

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Ohm’s Law Explanation

Ohm’s Law is named after the German physicist Georg Ohm (1789-1854). The Ohm’s law states that the voltage across a resistor is directly proportional to the current flowing through the resistor and directly proportional to the resistance of the circuit.

The formulas of Ohm’s law are: V = IR, I = V/R, and R = V/I. It can be easily understood if we analyze a circuit where there is a battery (12 volt power source) in series with a 6 ohm resistor.

To find the current: I = V/R

Therefore, the electric current flowing through the circuit (through the resistor) is I = 12 volts / 6 ohms = 2 amps.

To find the voltage: V = I x R

In the same way, we can solve the above equation for voltage, and we get V = I x R (another expression for Ohm’s law), so if we know the current and the value of the resistor, we can obtain the voltage across the terminals of the resistor as follows V = 2 amps x 6 ohms = 12 volts.

To find the resistance: R = V / I

As in the previous case, we can solve the equation for the resistance, and we get R = V / I. Then, if we know the voltage across the resistor and the electric current flowing through it, we get the resistance value: R = 12 volts / 2 amps = 6 ohms

It is interesting to note that the relationship between electric current and voltage across a resistor is always linear, and the slope of this line is directly related to the value of the resistor. Thus, the greater the value of the resistor, the greater the slope.

Ohm’s Law Triangle

The following triangle, which is very similar to the formulas discussed above, is used to memorize the three expressions of Ohm’s Law.

There are 3 cases:

If there is a fixed resistance value, an increase in current means an increase in voltage.
When the voltage is fixed, an increase in current is caused by a decrease in resistance.
When the current is fixed, an increase in resistance causes an increase in voltage.

It is important to note that the data obtained can also be used to determine the power dissipated in a resistor. In this way, electrical power and Ohm’s law are related.

Ohm’s law for different resistor values

If we look at the picture, we can see three lines with different slopes, corresponding to three different resistor values.

From the picture above, we can see the current value for each resistor for a given voltage. We can also find the voltage value for each resistor for any given current.

Ohm’s law and electrical power

The Ohm’s Law triangle relates voltage, current and resistance in one equation. (Resistance = resistor value). A more complete expression of Ohm’s Law is the electrical power formula.

Using the well-known power formula: P = V x I, (power = voltage x current) and its variants: V = P/I and I = P/V, additional formulas are obtained.

These new equations allow us to obtain the values of power, voltage, current and resistance using only two of the four variables.

Examples of Ohm’s Law and Electrical Power

Problem: Find the power dissipated by a resistor R = 6 ohms connected to a battery of 12 volts.

1- If we solve the problem with the formula P = I²x R

The electric current flowing through the circuit is I = 12 volts/6 ohms = 2 amps. We can find the heat dissipated by the resistor using the formula: P = I²x R = 2²x6 = 24 watts

2 – If we solve the problem using the formula:P = V x I

We can find the power on the resistor using the formula: P = V x I = 12 x 2 = 24 watts

We can find the heat dissipated by the resistor using the formula: P = V x I = 12 x 2 = 24 watts

3 – If we solve the problem using the formula: P= V²/R

In the same way, we can find the heat dissipated by the resistor using the formula: P = V²/R = 12² / 6 = 24 watts. This formula doesn’t require you to find the current flowing through the circuit.

Problem: What is the maximum current that can flow through a 5 watt resistor when connected to a 6 volt battery?

1- Solving the problem using the formula: I = P/V.

Theelectric currentflowing through the resistor is: 5 watts/6 volts = 0.83 amps.

2- Solving the problem using the formula: I = V/R.

First, we find the resistance using the formula: R = V²/P = 6²/ 5 = 7.2 ohms. Then we can find the current flowing through the resistor: I = V/R = 6 volts / 7.2 ohms = 0.83 amps.

3- Solving the problem using the formula: I = (P/R)^1/2

First, we find the resistance using the formula: R = V²/P = 6²/ 5 = 7.2 ohms. Then we can determine the current flowing through the resistor: I = (P/R)^1/2= (5 watts / 7.2 ohms)^1/2 = 0.83 amps.

Note: The square root = ( )^1/2.

FAQs

Ohm's Law and Electrical Power - Formulas - Electronics Area? ›

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance. V = voltage, electric potential difference Δ V or E = electromotive force (emf = voltage).

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What is the formula for power in electronics? ›

P = V X I . Here P is power in watts. V is voltage in volts. I is current in amps.

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How do you calculate electrical power using Ohm's law? ›

The power formula can be rewritten using Ohm's law as P =I²R or P = V²/R, where V is the potential difference, I is the electric current, R is the resistance, and P is the electric power.

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What is the equation for power electronics? ›

The power electronics system operates at the rated output-power level, and, by measuring the input power and output power, you can calculate the systems efficiency using the equation η=(POUT/PIN)×100%, where POUT is output power and PIN is input power.

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What is the state of Ohm's law in electronics? ›

One of the most basic and important laws of electric circuits is Ohm's law. Ohm's law states that the voltage across a conductor is directly proportional to the current flowing through it, provided all physical conditions and temperatures remain constant.

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What is the basic electrical formula? ›

Voltage= Current× Resistance. V= I×R. V= voltage, I= current and R= resistance. The SI unit of resistance is ohms and is denoted by Ω This law is one of the most basic laws of electricity.

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What is the formula for power of an electric device? ›

P = I V = I ( I R ) = I 2 R . This gives the power in terms of only the current and the resistance. Thus, by combining Ohm's law with the equation P = I V P = I V for electric power, we obtain two more expressions for power: one in terms of voltage and resistance and one in terms of current and resistance.

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What are the 3 main equations for power? ›

Power Formula for Different Relations

P = VI. This formula is the mathematical expression of Ohm's law.
P=RI2, with regard to current and resistance. P=V2R, with regard to voltage and resistance. The above formulas are variants of Ohm's law.
P=Et - Power equation.

Apr 21, 2023

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What are all the formulas for electricity? ›

Formula for Class 10 Chapter - Electricity

Quantity	Formulas	Unit
Voltage V	V = E / Q or V = W / Q E = Energy, W = Work done	Volts (V)
Resistance R	R = ρl / A ρ = Resistivity, l = length, A = Area or, R = V / I	Ohm (Ω)
Power P	P = VI	Watts (W)
Conductivity σ	sigma = 1 / ρ	Siemens per meter (S/m)

1 more row

May 19, 2022

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What are the 2 equations for electrical power? ›

Ohm's law equation (formula): V = I × R and the power law equation (formula): P = I × V. P = power, I or J = Latin: influare, international ampere, or intensity and R = resistance.

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What are the three formulas in Ohm's law? ›

Putting these into words Ohm's Law states that: Voltage equals resistance multiplied by current. Resistance equals voltage divided by current. Current equals voltage divided by resistance.

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What is the formula for electrical work? ›

Electrical work is equal to the amount of charge multiplied by the voltage difference. It describes the effort put in to move a charge between two points. This principle is embodied in the formula W = QV, where W represents work, Q charge, and V voltage.

How to calculate voltage? ›

This is also sometimes annoted as voltage = current x resistance, or volts = amps x ohms, or V = A x Ω.

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What is the general formula of power? ›

The formula for power in watts is given by the work and the time. The formula is P = W/t, where W is the work done in some time t.

What is the power formula function? ›

A function is a power function if it can be expressed in the form y = kx^n, where y and x are variables, k is a constant coefficient, and n is a constant exponent. To identify a power function, examine the equation for a single x term raised to a constant power, with no additional terms.

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What is the formula for e power? ›

e to the power x is an exponential function with a base equal to 'e', which is known as "Euler's number". It is written as f(x) = e^x, where 'e' is the Euler's number and its value is approximately 2.718.

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What is electric power and formula? ›

What Is Electric Power?

Symbol	P
SI Unit	Watt, joule per second
Scalar or Vector	Scalar Quantity
Formula	P=VI Where, V is the potential difference (volts) I is the electric current

Sep 12, 2020

Ohm's Law and Electrical Power - Formulas - Electronics Area (2024)

Ohm’s Law Explanation

To find the current: I = V/R

To find the voltage: V = I x R

To find the resistance: R = V / I

Ohm’s Law Triangle

Ohm’s law for different resistor values

Ohm’s law and electrical power

Examples of Ohm’s Law and Electrical Power

FAQs

Ohm's Law and Electrical Power - Formulas - Electronics Area? ›

What are the three formulas in Ohm's law? ›