Watt-hours (Wh) to Electronvolts (eV) conversion

1 Wh = 2.246943e+22 eVeVWh
Formula
1 Wh = 2.246943e+22 eV

Understanding Watt-hours to Electronvolts Conversion

The watt-hour (Wh) is the energy of one watt sustained for one hour, the everyday unit for electricity metering and battery capacity. The electronvolt (eV) is the energy a single electron gains crossing a potential difference of one volt, equal to about 1.602 × 10⁻¹⁹ joules and the natural energy unit of atomic, nuclear, and particle physics. Converting watt-hours to electronvolts spans macroscopic and subatomic scales, useful in physics education and in relating device energy to particle counts.

Conversion Formula

1 Wh=2.246943×1022 eV1\ \text{Wh} = 2.246943 \times 10²²\ \text{eV}

To convert Watt-hours to Electronvolts, multiply by this factor:

eV=Wh×2.246943×1022\text{eV} = \text{Wh} \times 2.246943 \times 10²²

Step-by-Step Example

Convert 25 Watt-hours to Electronvolts.

eV=25×2.246943×1022=5.61736×1023 eV\text{eV} = 25 \times 2.246943 \times 10²² = 5.61736 \times 10²³\ \text{eV}

How to Convert Watt-hours to Electronvolts

This method scales an everyday watt-hour energy up to the particle-physics electronvolt.

  1. Take the watt-hour value: Start with the energy figure in watt-hours.
  2. Multiply by the factor: Apply 2.246943 × 10²² electronvolts per watt-hour.
  3. Use scientific notation: The result is enormous, so express it with a power of ten.
  4. Worked result: For 10 Wh, 10×2.246943×1022=2.24694×102310 \times 2.246943 \times 10²² = 2.24694 \times 10²³ eV.

Watt-hours to Electronvolts conversion table

Watt-hours (Wh)Electronvolts (eV)
00
12.246943e+22
24.493887e+22
36.74083e+22
48.987773e+22
51.123472e+23
61.348166e+23
71.57286e+23
81.797555e+23
92.022249e+23
102.246943e+23
153.370415e+23
204.493887e+23
255.617358e+23
306.74083e+23
408.987773e+23
501.123472e+24
601.348166e+24
701.57286e+24
801.797555e+24
902.022249e+24
1002.246943e+24
1503.370415e+24
2004.493887e+24
2505.617358e+24
3006.74083e+24
4008.987773e+24
5001.123472e+25
6001.348166e+25
7001.57286e+25
8001.797555e+25
9002.022249e+25
10002.246943e+25
20004.493887e+25
30006.74083e+25
40008.987773e+25
50001.123472e+26
100002.246943e+26
250005.617358e+26
500001.123472e+27
1000002.246943e+27
2500005.617358e+27
5000001.123472e+28
10000002.246943e+28

What is the watt-hour?

Watt-hours (Wh) are a practical unit for measuring electrical energy, especially in contexts like battery capacity and energy consumption. Understanding watt-hours helps in making informed decisions about energy usage and storage.

Definition of Watt-hours

A watt-hour (Wh) is a unit of energy equal to the amount of energy consumed by a one-watt load operating for one hour. It's a straightforward way to quantify energy usage over time.

The formula for calculating energy in watt-hours is:

Energy (Wh)=Power (W)×Time (h)\text{Energy (Wh)} = \text{Power (W)} \times \text{Time (h)}

Formation of Watt-hours

Watt-hours are derived from the relationship between power (watts) and time (hours). Power, measured in watts (W), represents the rate at which energy is used or produced. One watt is defined as one joule per second.

Since watt is joules per second, we can also say following where energy is in Joules and time is in seconds:

Energy (J)=Power (W)×Time (s)\text{Energy (J)} = \text{Power (W)} \times \text{Time (s)}

To get watt-hours, you simply multiply the power consumption (in watts) by the duration of operation (in hours). This provides a convenient measure of total energy used.

Interesting Facts and Historical Context

While no specific law is directly named after "Watt-hours," it's fundamentally linked to the work of James Watt, the Scottish inventor who improved the steam engine. Watt's name was adopted as the unit of power in recognition of his contributions to understanding and quantifying energy.

Real-World Examples

  • Battery Capacity: Batteries are often rated in watt-hours, indicating the amount of energy they can store. For example, a 100 Wh battery can theoretically power a 10-watt device for 10 hours.
  • Laptop Consumption: A laptop that consumes 30 watts, when used for 4 hours, would use 120 Wh of energy.
  • Electric Vehicle Range: The range of an electric vehicle is determined by the capacity of its battery pack (measured in kilowatt-hours, kWh) and the vehicle's energy consumption rate.
  • Household Appliance: A refrigerator may use 500 Wh of energy per day. This information is useful for calculating energy costs.

For more on the subject, read Energy vs. Power from Energy Education website.

What is the Electronvolt?

The electronvolt is a small unit of energy used throughout atomic, nuclear, and particle physics to describe the energies of individual particles, photons, and chemical or nuclear reactions.

Definition

One electronvolt is the kinetic energy gained by a single electron accelerated through an electric potential difference of one volt:

1 eV=1.60218×1019 J1\ \text{eV} = 1.60218 \times 10⁻¹⁹\ \text{J}

Since the 2019 redefinition of SI units, this value is exact: 1 eV = 1.602176634 × 10⁻¹⁹ J, because the elementary charge is now a defined constant. Common multiples include the keV (10³ eV), MeV (10⁶ eV), GeV (10⁹ eV), and TeV (10¹² eV).

Origin and History

The unit arose in the early 20th century as physicists studied electrons and ions accelerated in vacuum tubes and early particle accelerators, where energy expressed in volts of accelerating potential was far more natural than joules. It became the standard energy scale as quantum and nuclear physics matured.

Law and Notable Facts

The electronvolt is accepted for use with the SI system though it is not itself an SI unit. Via mass-energy equivalence, particle masses are routinely quoted in eV/c²: the electron's rest mass is about 511 keV/c², and the proton's is about 938 MeV/c².

Real-World Examples and Conversions

  • Visible-light photons carry roughly 1.6 to 3.3 eV each.
  • Chemical bond energies are typically a few eV per bond.
  • The Large Hadron Collider accelerates protons to about 6.5 TeV, or 6.5 × 10¹² eV, roughly 1.04 microjoules per proton.

Frequently Asked Questions

How many electronvolts are in one watt-hour?

One watt-hour equals about 2.246943 × 10²² electronvolts. The astronomically large number reflects how tiny a single electronvolt is compared with everyday energy.

How do I convert electronvolts back to watt-hours?

Multiply the electronvolt value by 4.450491 × 10⁻²³, or divide by 2.246943 × 10²².

Why convert watt-hours to electronvolts?

The conversion links macroscopic device energy to the particle scale, which is instructive in physics teaching and when estimating how many high-energy particles a given electrical energy could produce.

How does this relate to joules?

One watt-hour is 3,600 joules, and one electronvolt is about 1.602 × 10⁻¹⁹ joules. Dividing gives the 2.247 × 10²² eV per watt-hour figure.

How many electronvolts does a AA battery hold?

A typical AA cell stores roughly 2–3 watt-hours, so it holds on the order of 5 × 10²² electronvolts of energy, illustrating the vast particle-scale count in a small battery.

Complete Watt-hours conversion table

Wh
UnitResult
Watt-seconds (Ws)3600 Ws
Watt-minutes (Wm)60 Wm
Milliwatt-hours (mWh)1000 mWh
Kilowatt-hours (kWh)0.001 kWh
Megawatt-hours (MWh)0.000001 MWh
Gigawatt-hours (GWh)1e-9 GWh
Joules (J)3600 J
Kilojoules (kJ)3.6 kJ
Megajoules (MJ)0.0036 MJ
Gigajoules (GJ)0.0000036 GJ
British Thermal Units (IT) (BTU)3.412142 BTU
US Therms (thm)0.00003412956 thm
Electronvolts (eV)2.246943e+22 eV
Ergs (erg)36000000000 erg
Foot-pounds (ft-lbf)2655.224 ft-lbf
Tonnes of TNT (t-tnt)8.604207e-7 t-tnt
calories (cal)860.4207 cal
Kilocalories (kcal)0.8604207 kcal