Convert Megajoule to Watt-Hour (MJ → Wh)
The megajoule is used for measuring fuel energy content, large-scale electrical work, and industrial heat applications.
Megajoule to Watt-Hour Conversion Table
10 common values| Megajoule | Watt-Hour |
|---|---|
| 1 MJ | 277.77778 Wh |
| 10 MJ | 2,777.7778 Wh |
| 100 MJ | 27,777.778 Wh |
| 500 MJ | 138,888.89 Wh |
| 1,000 MJ | 277,777.78 Wh |
| 5,000 MJ | 1,388,888.9 Wh |
| 10,000 MJ | 2,777,777.8 Wh |
| 50,000 MJ | 13,888,889 Wh |
| 100,000 MJ | 27,777,778 Wh |
| 500,000 MJ | 138,888,890 Wh |
How to Convert Megajoule to Watt-Hour Manually
Step by StepConverting megajoules to watt-hours is straightforward: multiply by the conversion factor. Follow these three steps to do it by hand or in your head.
- 1Take your value in megajoulesStart with the number of megajoules (MJ) you want to convert.
- 2Multiply by 277.77778The conversion factor from MJ to Wh is 277.77778. Multiply your value by this number.
- 3Read the result in watt-hoursThe result is your value in watt-hours (Wh).
Formula
Multiply the value in megajoules by 277.77778. For the reverse direction, multiply by 0.0036.
Wh = MJ × 277.77778MJ = Wh × 0.0036Tips
Use these in everyday conversions- 1 MJ = 1000 kJ = 0.278 kWh.
- Natural gas heat content often quoted as MJ/m³.
- For fuel economy, use MJ/km or L/100km interchangeably.
Common Mistakes
Avoid these- Confusing MJ with MW (power).
- Using MJ for electricity bills — kWh is standard.
- Mixing fuel energy (MJ) with fuel volume (L) without unit conversion.
About Megajoule and Watt-Hour
What is the Megajoule?
The megajoule equals 1,000,000 joules (or 1,000 kilojoules) and is used for measuring fuel energy content, large-scale electrical work, and industrial heat applications. The energy content of food and fuel is often quoted in MJ: a kilogram of gasoline contains about 46 MJ, natural gas has 38 MJ per cubic meter, and a kilogram of coal yields 24 MJ. Vehicle fuel-economy and energy-efficiency calculations use MJ to compare disparate energy sources. Industrial process heating, boiler outputs, and large machinery energy ratings are commonly given in MJ per cycle or MJ per hour. The megajoule relates to the joule (10⁶ J = 1 MJ), the kilojoule (1,000 kJ = 1 MJ), the kilowatt-hour (1 kWh = 3.6 MJ), and the BTU (1 MJ ≈ 948 BTU). For electricity-grid energy accounting, the equivalent kilowatt-hour or megawatt-hour is more common than MJ.
- Fuel energy content reporting
- Natural gas billing in some countries
- Industrial energy consumption
1 L petrol: ~34 MJ. 1 L diesel: ~38 MJ. Tesla Model 3 full charge: ~270 MJ.
What is the Watt-Hour?
The watt-hour equals exactly 3,600 joules and is the standard unit for small-battery capacity, household electrical energy, and renewable-energy storage. A smartphone battery stores roughly 12–15 Wh, a laptop battery 50–100 Wh, and an electric car battery 60,000–100,000 Wh (60–100 kWh). The watt-hour represents the energy delivered by a 1-watt device running for 1 hour. It is the natural unit for connecting power (watts) to time, which is why electric utilities bill in kilowatt-hours. The watt-hour relates to the joule (3,600 J = 1 Wh), the kilowatt-hour (1,000 Wh = 1 kWh), and the BTU (1 Wh ≈ 3.412 BTU). Battery capacity, solar panel output (Wh per day), and energy storage system specifications all rely on the watt-hour as the base small-energy unit.
- Laptop and phone battery capacity
- Portable power banks and UPS
- Home solar panel daily output
iPhone battery: 12 Wh. MacBook Pro: 70 Wh. Power bank: 20 Wh–100 Wh. Airplane carry-on limit: usually 100 Wh.