# Volts to electron-volts calculator

Electrical voltage in volts (V) to energy in electron-volts (eV) calculator.

Enter the voltage in volts, charge in elementary charge or coulombs and press the Calculate button:

 Enter voltage in volts: V Select charge unit type: Elementary charge unit Coulomb unit Enter elementary charge: e Result in electron-volts: eV

eV to volts calculator ►

## Volts to eV calculation with elementary charge

So The energy E in electron-volts (eV) is equal to the voltage V in volts (V), times the electric charge Q in elementary charge or proton/electron charge (e).

E(eV) = V(V) × Q(e)

So The elementary charge is the electric charge of [1] electron with the e symbol.

#### Example 1

What is the energy in electron-volts that is consumed in an electrical circuit with voltage supply of 10 volts and charge flow of 40 electron charges?

E = 10V × 40e = 400eV

#### Example 2

What is the energy in electron-volts that is consumed in an electrical circuit with voltage supply of 30 volts and charge flow of 40 electron charges?

E = 30V × 40e = 1200eV

#### Example 3

What is the energy in electron-volts that is consumed in an electrical circuit with voltage supply of 50 volts and charge flow of 40 electron charges?

E = 50V × 40e = 2000eV

## Volts to eV calculation with coulombs

So The energy E in electron-volts (eV) is equal to the voltage V in volts (V), times the electrical charge Q in coulombs (C) divided by 1.602176565×10-19.

E(eV) = V(V) × Q(C) / 1.602176565×10-19

#### Example 1

What is the energy in electron-volts that is consumed in an electrical circuit with voltage supply of 10 volts and charge flow of 2 coulombs?

E = 10V × 2C / 1.602176565×10-19 = 1.2483×1020eV

#### Example 2

What is the energy in electron-volts that is consumed in an electrical circuit with voltage supply of 30 volts and charge flow of 2 coulombs?

E = 30V × 2C / 1.602176565×10-19 = 3.7449×1020eV

#### Example 3

What is the energy in electron-volts that is consumed in an electrical circuit with voltage supply of 50 volts and charge flow of 2 coulombs?

E = 50V × 2C / 1.602176565×10-19 = 6.2415×1020eV

Volts to eV calculation ►

## Features of Volts to electron-volts Calculator

Our Volts to electron-volts converter allows the users to Calculate Volts to electron-volts. Some of the prominent features of this utility are explained below.

### No Registration

You don’t need to go through any registration process to use the Volts to electron-volts converter. Using this utility, you can convert Volts to electron-volts as many times as you want for free.

#### Fast conversion

This Volts to electron-volts Calculator offers users the fastest conversion. Once the user enters the  Volts to electron-volts values ​​in the input field and clicks the Convert button, the utility will start the conversion process and return the results immediately.

#### Saves Time and Effort

The manual procedure of Calculator Volts to electron-volts isn’t an easy task. You must spend a lot of time and effort to complete this task. The Volts to electron-volts Calculator allows you to complete the same task immediately. You will not be asked to follow manual procedures, as its automated algorithms will do the work for you.

##### Accuracy

Despite investing time and effort in manual Calculation, you might not be able to get your hands on accurate results. Not everyone is good at solving math problems, even if you think you're a pro, there's still a good chance you'll get in accurate results. This situation can be smartly handled with the help of a Volts to electron-volts Calculator. You will be provided with 100% accurate results by this online tool.

##### Compatibility

The online Volts to electron-volts converter perfectly works on all operating systems. Whether you have a Mac, iOS, Android, Windows, or Linux device, you can easily use this online Tool without facing any hassle.

###### 100% Free

You don't need to go through any registration process to use this Volts to electron-volts Calculator. You can use this utility for free and do unlimited Volts to electron-volts Convert without any limitations.