Kiloelectronvolts to Therms Converter

Convert kiloelectronvolts to therms instantly with our free energy conversion calculator. Enter any value for accurate results.

How to Convert Kiloelectronvolts to Therms

To convert an energy measurement from kiloelectronvolts to therms, divide the energy value by the conversion factor. Since one kiloelectronvolt is equal to 1.5186 × 10^-24 therms, you can use this formula:

therms = kiloelectronvolts ÷ 6.5851 × 10²³

The energy in therms is equal to the kiloelectronvolts divided by 6.5851 × 10²³.

Example: Convert 5 kiloelectronvolts to therms.

Using the formula: therms = kiloelectronvolts ÷ 6.5851 × 10²³

therms = 5 keV ÷ 6.5851 × 10²³ = 7.5929E-24 thm

Therefore, 5 kiloelectronvolts equals 7.5929E-24 therms.

How Many Therms Are in a Kiloelectronvolt?

There are 1.5186 × 10^-24 therms in one kiloelectronvolt.

1 keV = 1.5186 × 10^-24 thm

What Is a Kiloelectronvolt?

The kiloelectronvolt (symbol: keV) is a unit of energy equal to 1,000 electronvolts or approximately 1.602 × 10⁻¹⁶ joules. The prefix “kilo” denotes a factor of 1,000. The keV is the standard unit for expressing energies in X-ray physics, electron microscopy, and nuclear medicine. Medical X-rays typically operate in the range of 20–150 keV, with mammography using 20–30 keV, dental X-rays using 60–70 keV, and chest X-rays using 100–150 keV. In electron microscopy, the accelerating voltage of the electron beam is expressed in keV. Scanning electron microscopes (SEM) typically operate at 1–30 keV, while transmission electron microscopes (TEM) operate at much higher energies, typically 100–300 keV. In nuclear physics, the keV is used to express the energies of low-energy nuclear transitions, X-ray fluorescence lines, and Auger electron energies. Many gamma-ray lines from radioactive decay fall in the keV range, such as the 662 keV gamma ray from cesium-137.

One kiloelectronvolt is equal to:

1.602 × 10⁻¹⁶ joules (J)
1,000 electronvolts (eV)
0.001 megaelectronvolts (MeV)
3.827 × 10⁻¹⁷ calories (cal)
4.45 × 10⁻²⁰ watt-hours (Wh)
1.519 × 10⁻¹⁹ BTU

What Is a Therm?

The therm (symbol: thm) is a unit of heat energy equal to 100,000 British thermal units (BTU), or approximately 105,506,000 joules (105.5 MJ). It is primarily used in the United States for measuring and billing natural gas consumption. In the US natural gas industry, residential and commercial gas bills are typically calculated in therms. One therm is approximately equal to the energy content of 100 cubic feet (about 2.83 cubic metres) of natural gas, though the exact equivalence depends on the gas composition and heating value. A typical US household that uses natural gas for heating, cooking, and hot water consumes about 500–1,000 therms per year, with higher consumption during winter months for heating. Natural gas prices are often quoted in dollars per therm on utility bills, typically ranging from $0.50–$2.00 per therm. The therm was legally defined in the UK by the Gas Act 1972 as exactly 100,000 BTU. While the UK has since moved to measuring gas consumption in kilowatt-hours, the therm remains the standard billing unit in the United States.

One therm is equal to:

105,505,585 joules (J)
105.506 megajoules (MJ)
29.3071 kilowatt-hours (kWh)
100,000 BTU
0.1 MMBTU
25,216,442 calories (cal)
25,216 kilocalories (kcal)

Understanding Energy Units

Energy is a fundamental physical quantity that represents the capacity to do work or produce heat. It is conserved in all physical processes (the first law of thermodynamics) and can be converted from one form to another — mechanical, thermal, electrical, chemical, nuclear, and radiant energy are all interconvertible.

The wide variety of energy units reflects the historical development of different branches of science and engineering, each of which developed its own preferred units before the adoption of the International System of Units (SI).

Major Unit Families

SI / Metric units: The joule (J) is the SI unit of energy, with standard metric prefixes (kJ, MJ, GJ). The watt-second (Ws) is identical to the joule. Watt-hours (Wh), kilowatt-hours (kWh), and megawatt-hours (MWh) combine power (watts) with time.
Calorie-based units: The calorie (cal), kilocalorie (kcal), and megacalorie (Mcal) originated in thermochemistry. The kilocalorie is widely used in nutrition as the “food Calorie.”
British / Imperial units: The British thermal unit (BTU) and its multiples (MMBTU, therm, quad) are used primarily in the US for HVAC, natural gas, and national energy statistics.
Atomic-scale units: The electronvolt (eV) and its multiples (keV, MeV) are used in atomic, nuclear, and particle physics for the extremely small energies of individual particles.

Energy in Everyday Life

Nutrition: Food energy is measured in kilocalories (kcal) or kilojoules (kJ). A typical adult needs about 2,000–2,500 kcal (8,400–10,500 kJ) per day.
Electricity: Household electricity consumption is measured in kilowatt-hours (kWh). An average US home uses about 900–1,000 kWh per month.
Heating: Natural gas consumption is measured in therms or MMBTU. A US home might use 500–1,000 therms per year for heating.
Transportation: Gasoline contains about 120,000 BTU or 34 MJ per litre. One gallon of gasoline contains about 33.7 kWh of energy.

Converting Between Energy Units

All energy units measure the same physical quantity, so converting between them is simply a matter of multiplying by the appropriate conversion factor. The factor is the ratio of how many joules one unit of the source contains divided by how many joules one unit of the target contains.

For very large or very small conversion factors, results are often expressed in scientific notation (e.g., 6.2415 × 10¹⁸ eV per joule). This is particularly common when converting between atomic-scale units (electronvolts) and everyday units (joules, BTU, calories).

Tips for Energy Conversions

The joule and watt-second are exactly the same unit (1 J = 1 Ws). The different names are used in different contexts.
For SI metric conversions (J, kJ, MJ, GJ), each prefix step is a factor of 1,000. The same applies to cal/kcal/Mcal, Wh/kWh/MWh, and eV/keV/MeV.
The kilocalorie (kcal) used in nutrition is often written as “Calorie” with a capital C. When a food label says 200 Calories, it means 200 kcal = 200,000 cal.
One kilowatt-hour equals exactly 3,600,000 joules (1 kW × 3,600 seconds). This is useful for converting between electrical and metric energy units.
One BTU ≈ 1,055 joules ≈ 252 calories. These rough equivalences are useful for quick mental conversions.
One therm = 100,000 BTU exactly. One MMBTU = 1,000,000 BTU exactly. One quad = 10¹⁵ BTU exactly.
The electronvolt is an extremely small unit compared to everyday energy: 1 eV ≈ 1.6 × 10⁻¹⁹ J. It is used only for atomic-scale energies.
To calculate electricity cost, multiply kWh × price per kWh. To calculate gas heating cost, multiply therms × price per therm.

Kiloelectronvolts to Therms Conversion Table

The following table shows conversions from kiloelectronvolts to therms.

Kiloelectronvolts	Therms (thm)
1.0000E+23 keV	0.151857
2.0000E+23 keV	0.303714
3.0000E+23 keV	0.455571
4.0000E+23 keV	0.607428
5.0000E+23 keV	0.759285
6.0000E+23 keV	0.911142
7.0000E+23 keV	1.063
8.0000E+23 keV	1.21486
9.0000E+23 keV	1.36671
1.0000E+24 keV	1.51857
2.0000E+24 keV	3.03714
3.0000E+24 keV	4.55571
4.0000E+24 keV	6.07428
5.0000E+24 keV	7.59285
6.0000E+24 keV	9.11142
7.0000E+24 keV	10.63
8.0000E+24 keV	12.1486
9.0000E+24 keV	13.6671
1.0000E+25 keV	15.1857
2.0000E+25 keV	30.3714
3.0000E+25 keV	45.5571
4.0000E+25 keV	60.7428
5.0000E+25 keV	75.9285
6.0000E+25 keV	91.1142
7.0000E+25 keV	106.3
8.0000E+25 keV	121.486
9.0000E+25 keV	136.671
1.0000E+26 keV	151.857