Volt

This article is about the SI derived unit. For the plug-in hybrid concept car, see Chevrolet Volt.

"Volts" redirects here. For the AC/DC album, see Volts (album).

Josephson junction array chip developed by NIST as a standard volt.

The volt (symbol: V) is the SI derived unit of electric potential difference or electromotive force.SI Brochure, Table 3 (Section 2.2.2). BIPM (2006). Retrieved on 2007-07-29.Rudolf F. Graf, "Volt", Dictionary of Electronics; Radio Shack, 1974-75. Fort Worth, Texas. ISBN B000AMFOZY It is named in honor of the Italian physicist Alessandro Volta (1745–1827), who invented the voltaic pile, the first modern chemical battery.

Definition

The volt is defined as the potential difference across a conductor when a current of one ampere dissipates one watt of power.BIPM SI Brochure: Appendix 1, p. 144 Hence, it is the base SI representation m² · kg · s^-3 · A^-1, which can be equally represented as one joule of energy per coulomb of charge, J/C.

$\backslash mbox\{V\}\; =\; \backslash dfrac\{\backslash mbox\{W\}\}\{\backslash mbox\{A\}\}\; =\; \backslash dfrac\{\backslash mbox\{W\}\; \backslash cdot\; \backslash mbox\{s\}\}\{\backslash mbox\{A\}\; \backslash cdot\; \backslash mbox\{s\}\}\; =\; \backslash dfrac\{\backslash mbox\{J\}\}\{\backslash mbox\{C\}\}\; =\; \backslash dfrac\{\backslash mbox\{N\}\; \backslash cdot\; \backslash mbox\{m\}\; \}\{\backslash mbox\{A\}\; \backslash cdot\; \backslash mbox\{s\}\}\; =\; \backslash dfrac\{\backslash mbox\{kg\}\; \backslash cdot\; \backslash mbox\{m\}^2\}\{\backslash mbox\{A\}\; \backslash cdot\; \backslash mbox\{s\}^\{3\}\}$

Josephson junction definition

Since 1990 the volt is maintained internationally for practical measurement using the Josephson effect, where a conventional value is used for the Josephson constant, fixed by the 18th General Conference on Weights and Measures as

K_{J-90} = 0.4835979 GHz/µV.

Hydraulic analogy

In the hydraulic analogy sometimes used to explain electric circuits by comparing them to water-filled pipes, voltage is likened to water pressure – it determines how fast the electrons will travel through the circuit. Current (in amperes), in the same analogy, is a measure of the volume of water that flows past a given point. This volume is determine by the width of the pipe and the water pressure on the front end of the pipe compared with the exit. The analogy extends to power dissipation: the power given off by the water flow is equal to current times pressure, just as the power dissipated in a resistor is equal to current times the voltage drop across the resistor (amperes x volts = watts).

The relationship between voltage and current (in ohmic devices) is defined by Ohm\'s Law.

Common voltages

A multimeter can be used to measure the voltage between two points

1.5 V C-cell batteries

Nominal voltages of familiar sources:

• Nerve cell action potential: around 75 mVThe dual effect of membrane potential on sodium conductance in the giant axon of Loligo. J Physiol 1952 Apr;116(4):497-506. PMID 14946715
• Single-cell, rechargeable NiMH or NiCd battery: 1.2 V
• Mercury battery: 1.355 V
• Single-cell, non-rechargeable alkaline battery (e.g. AAA, AA, C and D cells): 1.5 V
• Lithium polymer rechargeable battery: 3.75 V
• Transistor-transistor logic/CMOS (TTL) power supply: 5 V
• PP3 battery: 9 V
• Automobile electrical system: "12 V", about 11.8 V discharged, 12.8 V charged, and 13.8-14.4 V while charging (vehicle running).
• Household mains electricity: 240 V RMS in Australia, 230 V RMS in Europe, Asia and Africa, 120 V RMS in North America, 100 V RMS in Japan (see List of countries with mains power plugs, voltages and frequencies)
• Rapid transit third rail: 600 to 750 V (see List of current systems for electric rail traction)
• High speed train overhead power lines: 25 kV RMS at 50 Hz, but see the list of current systems for electric rail traction for exceptions.
• High voltage electric power transmission lines: 110 kV RMS and up (1150 kV RMS was the record as of 2005)
• Lightning: Varies greatly, often around 100 MV.

Note: Where \'RMS\' (root mean square) is stated above, the peak voltage is $\backslash sqrt\{2\}$ times greater than the RMS voltage for a sinusoidal signal centered around zero voltage.

History of the volt

In 1800, as the result of a professional disagreement over the galvanic response advocated by Luigi Galvani, Alessandro Volta developed the so-called Voltaic pile, a forerunner of the battery, which produced a steady electric current. Volta had determined that the most effective pair of dissimilar metals to produce electricity was zinc and silver. In the 1880s, the International Electrical Congress, now the International Electrotechnical Commission (IEC), approved the volt for electromotive force. At that time, the volt was defined as the potential difference across a conductor when a current of one ampere dissipates one watt of power.

Prior to the development of the Josephson junction voltage standard, the volt was maintained in national laboratories using specially constructed batteries called standard cells. The United States used a design called the Weston cell from 1905 to 1972.

See also

Look up Volt in
Wiktionary, the free dictionary.

• SI for unit prefixes
• SI electromagnetism units
• Voltage
• Voltmeter
• Watt
• Ampere

References

External links

• Google Video Lecture about Electricity and Volt by Richard A. Muller
• What is RMS?

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