Horsepower (Metric) to Gigawatt
hp
GW
Conversion History
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Quick Reference Table (Horsepower (Metric) to Gigawatt)
| Horsepower (Metric) (hp) | Gigawatt (GW) |
|---|---|
| 0.5 | 0.000000367749375 |
| 1 | 0.00000073549875 |
| 10 | 0.0000073549875 |
| 100 | 0.000073549875 |
| 200 | 0.00014709975 |
| 500 | 0.000367749375 |
| 1,000 | 0.00073549875 |
About Horsepower (Metric) (hp)
Metric horsepower (PS or CV, from German Pferdestärke or French Cheval-vapeur) equals exactly 75 kgf·m/s or 735.49875 watts. It is the standard for automotive engine power ratings in continental Europe, Japan, and many other countries. A typical family car engine produces 70–150 PS; sports cars 200–500 PS; hypercars exceeding 1,000 PS. The metric hp is about 1.4% less than the mechanical (British) horsepower (745.7 W).
A VW Golf 1.5 TSI produces about 130 PS (96 kW). A Porsche 911 Turbo S produces 650 PS (478 kW). The metric hp is the number on European car spec sheets.
Etymology: Introduced in the late 19th century as a metric alternative to Watt's mechanical horsepower, defined as the power to raise 75 kilograms by one meter per second. Widely adopted in continental Europe and Japan; standardized as the PS (Pferdestärke) in Germany.
About Gigawatt (GW)
A gigawatt (GW) equals one billion watts and is used to describe the output of large power stations, national grid capacity, and country-level energy policy targets. A typical nuclear power plant generates 1–3 GW. The UK National Grid peak demand is roughly 50 GW in winter. Renewable energy deployment targets are quoted in gigawatts of installed capacity. One gigawatt can power roughly 750,000 average European homes.
The Hinkley Point C nuclear plant under construction in the UK is rated at 3.2 GW. Total UK solar installed capacity exceeded 15 GW by 2024.
Horsepower (Metric) – Frequently Asked Questions
Why do European cars list PS instead of hp?
EU regulations require engine power in kilowatts, but consumers prefer a familiar number. Continental Europe adopted metric horsepower (PS) in the 19th century, and car culture cemented it. Germans say "PS," French say "CV," Italians say "CV" too. The UK uses "bhp" (British horsepower). A 200 PS car is 197 hp — close enough that most people don't notice the 1.4% difference. Japanese manufacturers use PS as well (sometimes written 馬力).
How does a car with 100 PS actually feel to drive?
In a light car (1,000 kg), 100 PS gives a power-to-weight ratio of 100 PS/tonne — adequate for city driving with 0–100 km/h in about 10–11 seconds. In a heavy SUV (2,000 kg), 100 PS feels sluggish, struggling on hills and taking 15+ seconds to reach highway speed. The magic number for "fun" is roughly 150–200 PS per tonne — which is why a 90 PS Mazda MX-5 (1,000 kg) feels livelier than a 200 PS family SUV (1,800 kg).
What is the most powerful production car in PS?
As of 2025, the Rimac Nevera holds the production EV record at 1,914 PS (1,408 kW). For combustion engines, the Bugatti Chiron Super Sport delivers 1,600 PS. Koenigsegg's Jesko Absolut produces 1,600 PS. But the real mind-bender is that a Formula 1 car's power unit produces about 1,050 PS from just 1.6 liters — over 650 PS per liter, achieved through turbocharging and energy recovery systems at 15,000 RPM.
Why is metric horsepower slightly less than British horsepower?
Because they're defined differently. British hp = 550 ft·lbf/s = 745.7 W. Metric hp = 75 kgf·m/s = 735.5 W. The metric definition uses round metric numbers (75 kg, 1 m, 1 s) rather than being an exact conversion of the British unit. The ~1.4% gap is small enough that it rarely matters practically, but it means a car rated at 200 PS is technically 197 hp. Marketing departments sometimes quietly use whichever number is larger.
Do electric cars use PS or kW for their power ratings?
Both, depending on market. Tesla lists kW in tech specs but PS/hp in consumer marketing because buyers understand horsepower intuitively. A Tesla Model 3 Performance produces about 460 PS (340 kW). The shift toward kW is accelerating because EVs make the kW connection obvious — if you charge at 11 kW and your motor outputs 150 kW, the relationship is clear. Eventually kW may replace PS entirely, but decades of "how many horses?" thinking won't die easily.
Gigawatt – Frequently Asked Questions
Is 1.21 gigawatts from Back to the Future a real amount of power?
1.21 GW is very real — it's about the output of a large nuclear reactor. Doc Brown needed it for the flux capacitor, but a single lightning bolt actually delivers far more instantaneous power (up to 1,000 GW) for a few microseconds. The movie got the pronunciation slightly off: Christopher Lloyd famously said "jigawatts," which is technically an acceptable older pronunciation but not the standard one.
How many gigawatts does a country need?
It varies enormously. The UK peaks at about 50 GW; Germany around 80 GW; the US about 750 GW; China over 2,000 GW of installed capacity. But installed capacity and actual consumption differ: the US averages about 450 GW of actual demand. Developing nations can operate on strikingly little — some small African nations manage on under 0.5 GW for millions of people.
What is the largest single power plant in the world in gigawatts?
The Three Gorges Dam in China holds the record at 22.5 GW of installed hydroelectric capacity — enough to power a country the size of Switzerland. It has 32 main turbines each rated at 700 MW. Its annual output of ~100 TWh makes it the world's most productive power plant, though the Itaipu Dam on the Brazil-Paraguay border occasionally produces more in a given year due to higher capacity factor.
How fast is global solar capacity growing in gigawatts?
The world added roughly 420 GW of new solar capacity in 2023 alone — more than doubling the pace from just two years earlier. Total global solar capacity surpassed 1,600 GW by end of 2024. China installed over 200 GW in a single year, which is more than the entire US solar fleet accumulated over decades. At current trajectory, solar will exceed 5,000 GW globally by 2030.
How does a gigawatt compare to the power of natural phenomena?
A category 5 hurricane dissipates about 600,000 GW of heat energy through cloud formation alone — dwarfing human power infrastructure. A major volcanic eruption releases energy equivalent to thousands of GW sustained over hours. The Gulf Stream carries about 1.4 million GW of thermal power northward. Even a modest thunderstorm generates 10–100 GW. Nature operates on power scales that make our entire grid look like a nightlight.