Convert Electronvolt to Kilojoule (eV → kJ)
The electronvolt is the standard energy unit in atomic physics, particle physics, and semiconductor band-gap analysis.
Electronvolt to Kilojoule Conversion Table
10 common values| Electronvolt | Kilojoule |
|---|---|
| 1 eV | 1.602 × 10^-22 kJ |
| 10 eV | 1.602 × 10^-21 kJ |
| 100 eV | 1.602 × 10^-20 kJ |
| 500 eV | 8.011 × 10^-20 kJ |
| 1,000 eV | 1.602 × 10^-19 kJ |
| 5,000 eV | 8.011 × 10^-19 kJ |
| 10,000 eV | 1.602 × 10^-18 kJ |
| 50,000 eV | 8.011 × 10^-18 kJ |
| 100,000 eV | 1.602 × 10^-17 kJ |
| 500,000 eV | 8.011 × 10^-17 kJ |
How to Convert Electronvolt to Kilojoule Manually
Step by StepConverting electronvolts to kilojoules is straightforward: multiply by the conversion factor. Follow these three steps to do it by hand or in your head.
- 1Take your value in electronvoltsStart with the number of electronvolts (eV) you want to convert.
- 2Multiply by 1.602 × 10^-22The conversion factor from eV to kJ is 1.602 × 10^-22. Multiply your value by this number.
- 3Read the result in kilojoulesThe result is your value in kilojoules (kJ).
Formula
Multiply the value in electronvolts by 1.602 × 10^-22. For the reverse direction, multiply by 6.242 × 10^21.
kJ = eV × 1.602 × 10^-22eV = kJ × 6.242 × 10^21Tips
Use these in everyday conversions- 1 eV ≈ 1.602 × 10⁻¹⁹ J.
- Particle physics scales: eV → keV → MeV → GeV → TeV (1000× each).
- Photon energy (eV) × wavelength (nm) ≈ 1240.
Common Mistakes
Avoid these- Confusing eV with V (volt) — eV is energy, V is electric potential.
- Mixing scales: treating MeV as twice eV — it's a million times larger.
- Using eV for macroscopic energy — unwieldy numbers.
About Electronvolt and Kilojoule
What is the Electronvolt?
The electronvolt equals approximately 1.602176634 × 10⁻¹⁹ joules (a tiny amount of energy) and is the standard unit in atomic physics, particle physics, and semiconductor electronics. Defined as the energy gained by an electron accelerated through a potential difference of 1 volt, the eV is the natural scale for atomic and molecular energies. The energy required to ionize a hydrogen atom is 13.6 eV, the band gap of silicon (relevant for transistors and solar cells) is 1.12 eV, and visible light photons carry 1.6–3.3 eV per photon. Particle physicists routinely use MeV (million eV), GeV (billion eV), and TeV (trillion eV): the Large Hadron Collider accelerates protons to 6.5 TeV. The eV relates to the joule (1 eV ≈ 1.602 × 10⁻¹⁹ J), the kilojoule per mole (96.485 kJ/mol per eV), and atomic mass units via E = mc². It is the universal energy unit in physics literature.
- Particle physics (TeV, GeV, MeV)
- Atomic and molecular physics
- Semiconductor band gaps
Silicon band gap: 1.12 eV. Hydrogen ionization: 13.6 eV. LHC proton: 7 TeV. Photon wavelength 500 nm = 2.5 eV.
What is the Kilojoule?
The kilojoule equals 1,000 joules and is the standard unit on European nutrition labels and in mid-scale chemical and physical calculations. EU regulations require food packaging to display energy in kilojoules (typically with kilocalories also shown for consumer familiarity): a chocolate bar might show '2,100 kJ / 500 kcal' per 100 g. The kilojoule is also common in chemistry (bond energies), electrical engineering (capacitor storage), and small-mechanical-energy contexts. A car battery typically stores about 1,800 kJ; lifting a person 1 meter requires roughly 0.7 kJ. The kilojoule relates to the joule (1,000 J = 1 kJ), the kilocalorie (1 kcal = 4.184 kJ), the watt-hour (1 kWh = 3,600 kJ), and the megajoule (1,000 kJ = 1 MJ). The conversion factor 4.184 (kJ per kcal) is one of the most-used numbers in nutrition labeling.
- EU and UK nutrition labels
- Mechanical work in engineering
- Battery capacity in vehicles
100 g chocolate: ~2100 kJ. EU daily intake (adult): ~8400 kJ. Tesla Model 3 battery: ~270 MJ = 270,000 kJ.