Convert energy units — joules, kilowatt-hours, calories, BTU, electron volts and more.
| Unit | Name | Value |
|---|---|---|
| 0.001 MWh | 2.65522e+06 ft·lb | |
| 0.01 MWh | 2.65522e+07 ft·lb | |
| 0.1 MWh | 2.65522e+08 ft·lb | |
| 1 MWh | 2.65522e+09 ft·lb | |
| 5 MWh | 1.32761e+10 ft·lb | |
| 10 MWh | 2.65522e+10 ft·lb | |
| 50 MWh | 1.32761e+11 ft·lb | |
| 100 MWh | 2.65522e+11 ft·lb | |
| 1000 MWh | 2.65522e+12 ft·lb |
Formula: Foot-Pound = Megawatt-Hour × 2.655e+09
Multiply any megawatt-hour value by 2.655e+09 to get foot-pound.
Reverse: Megawatt-Hour = Foot-Pound × 3.7662e-10
Common megawatt-hour values — factor: 1 MWh = 2.655e+09 ft·lb
| Megawatt-Hour (MWh) | Foot-Pound (ft·lb) | Context |
|---|---|---|
| 0.001 MWh | 2.655e+06 ft·lb | 1 kWh |
| 0.01 MWh | 2.655e+07 ft·lb | 10 kWh |
| 0.1 MWh | 2.655e+08 ft·lb | 100 kWh |
| 1 MWh | 2.655e+09 ft·lb | 1 MWh |
| 4 MWh | 1.062e+10 ft·lb | Small wind turbine day |
| 10 MWh | 2.655e+10 ft·lb | Small building month |
| 100 MWh | 2.655e+11 ft·lb | 100 MWh |
| 1,000 MWh | 2.655e+12 ft·lb | 1 GWh |
| 4,000 MWh | 1.062e+13 ft·lb | Large turbine month |
| 1e+04 MWh | 2.655e+13 ft·lb | Small grid |
| 1e+05 MWh | 2.655e+14 ft·lb | 100 GWh |
| 1e+06 MWh | 2.655e+15 ft·lb | 1 TWh |
| 1e+07 MWh | 2.655e+16 ft·lb | 10 TWh |
| 1.000e+09 MWh | 2.655e+18 ft·lb | 1 PWh |
| 1.000e+12 MWh | 2.655e+21 ft·lb | Global day |
1 MWh = 2.655e+09 ft·lb. Memorize for instant estimates.
Use 2.655e+09 as a quick mental multiplier.
Multiply result by 3.7662e-10 to recover the original MWh value.
Reports generation output and fuel consumption in MWh.
Balances supply and demand in real time using MWh dispatch orders.
Buys and sells electricity in MWh on wholesale power markets.
Models solar and wind farm annual output in MWh for investors.
Monitors and reports monthly energy consumption in MWh.
Calculates Scope 2 emissions from electricity use in MWh.
The megawatt-hour (MWh) equals 1,000 kWh or 3.6 × 10⁹ joules. It is the standard unit for utility-scale electricity generation, large industrial consumers, and grid-level energy storage.
Power plants, wind farms, and solar installations are rated and billed in MWh. A 2 MW wind turbine generates about 6 MWh per day on average. Large data centers consume thousands of MWh per month.
Interesting fact: The Hoover Dam generates about 4,000 MWh per hour. A single nuclear power plant produces about 8,000 MWh per hour. World electricity consumption is approximately 25,000 TWh (25 billion MWh) per year.
The foot-pound (ft·lb) is an Imperial unit of energy equal to the work done when a force of one pound-force moves an object one foot, equaling 1.35582 joules. It has been used in British and American engineering since the 18th century.
Foot-pounds are standard in US mechanical engineering for torque specifications, engine output (often ft·lb of torque), and ballistic energy measurements. Rifle bullet energies are commonly quoted in foot-pounds in American publications.
Interesting fact: A typical 9mm pistol bullet has about 350 ft·lb of muzzle energy. The torque specification for tightening a car wheel bolt is typically 80–100 ft·lb. One horsepower equals 550 ft·lb per second.
Converting megawatt-hour to foot-pound is common across energy, nutrition, engineering, and science. Different sectors use different energy units — joules in physics, kcal in nutrition, kWh in electricity, and BTU in HVAC — making accurate conversion essential for cross-disciplinary work and international comparisons.
Quick reference: 5 MWh = 1.328e+10 ft·lb and 10 MWh = 2.655e+10 ft·lb. Reverse: 1 ft·lb = 3.7662e-10 MWh. Exact factor: 1 MWh = 2.655e+09 ft·lb.
All conversions use IEEE 754 double-precision arithmetic, accurate to at least 8 significant figures.