Watt (unit): Difference between revisions
imported>Anthony Argyriou (rewrite) |
imported>Anthony Argyriou (fix typo) |
||
Line 1: | Line 1: | ||
The '''watt''' is the [[SI]] unit of power, and is | The '''watt''' is the [[SI]] unit of power, and is the power "which in one [[second]] gives rise to energy of one [[joule]]"<ref>{{cite web|title=The International System of Units (SI)|publisher=BIPM|date=2006|url=http://www.bipm.org/utils/common/pdf/si_brochure_8_en.pdf}}, p. 144</ref>. The watt is also the power dissipated in a current of one [[ampere]] across a potential of one [[volt]]. The symbol of the watt in SI is '''W'''. | ||
The watt is named for the inventor of the steam engine, [[James Watt]] (1736-1819). | The watt is named for the inventor of the steam engine, [[James Watt]] (1736-1819). |
Revision as of 14:27, 21 June 2007
The watt is the SI unit of power, and is the power "which in one second gives rise to energy of one joule"[1]. The watt is also the power dissipated in a current of one ampere across a potential of one volt. The symbol of the watt in SI is W.
The watt is named for the inventor of the steam engine, James Watt (1736-1819).
The watt is a derived unit in the SI, equal to 1 N·m, or 1 V·A. In terms of SI basic units: W = m2·kg·s-3.
Practical use
A healthy adult human can generate about 900 watts sprinting on a cycle. Automobiles generally have a power output from 40 to 200 kilowatts (kW). A Caterpillar D9 bulldozer has a flywheel power of about 305 kW.
Incandescent light bulbs for room illumination typically draw between 40W and 150W of electric power. A solar panel 1 m2 in area in direct sunlight receives about 750 watts of solar radiation, and outputs about 120 watts of electric power. Nuclear power stations generate about 0.5 to 2.0 gigawatts (GW) of electrical power; the Three Gorges Dam is projected to supply 22.5 GW when fully operational.
Notes
- ↑ The International System of Units (SI). BIPM (2006)., p. 144