Standard Model

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my site; wellness [continue reading this..] Template:Infobox Unit The coulomb (named after Charles-Augustin de Coulomb, unit symbol: C) is a fundamental unit of electrical charge, and is also the SI derived unit of electric charge (symbol: Q or q). It is equal to the charge of approximately 6.241Template:E electrons.

Its SI definition is the charge transported by a constant current of one ampere in one second:

${\displaystyle 1\mathrm{C}=1\mathrm{A}\times 1\mathrm{s}}$

One coulomb is also the amount of excess charge on the positive side of a capacitor of one farad charged to a potential difference of one volt:

${\displaystyle 1\mathrm{C}=1\mathrm{F}\times 1\mathrm{V}}$

Name and notation

Template:SI unit lowercase^[1]

Definition

In the SI system, the coulomb is defined in terms of the ampere and second: 1 C = 1 A × 1 s.^[2] The second is defined in terms of a frequency which is naturally emitted by caesium atoms.^[3] The ampere is defined using Ampère's force law;^[4] the definition relies in part on the mass of the international prototype kilogram, a metal cylinder housed in France.^[5] In practice, the watt balance is used to measure amperes with the highest possible accuracy.^[5]

Since the charge of one electron is known to be about Template:Gaps, a coulomb can also be considered to be the charge of roughly Template:Gaps (or protons), the reciprocal of Template:Gaps.

SI prefixes

Template:SI multiples See also SI prefix.

Conversions

• The magnitude of the electrical charge of one mole of elementary charges (approximately 6.022Template:E, or Avogadro's number) is known as a faraday unit of charge (closely related to the Faraday constant). One faraday equals Template:Gaps. In terms of Avogadro's number (N_A), one coulomb is equal to approximately 1.036 × N_ATemplate:E elementary charges.
• One ampere-hour = 3600 C, 1 mA⋅h = 3.6 C.
• The elementary charge is Template:Gaps.^[6]
• One statcoulomb (statC), the obsolete CGS electrostatic unit of charge (esu), is approximately 3.3356Template:E C or about one-third of a nanocoulomb.
• One coulomb is the magnitude (absolute value) of electrical charge in Template:Gaps protons or electrons.^[6]

Relation to elementary charge

The elementary charge, the charge of a proton (equivalently, the negative of the charge of an electron), is approximately Template:Gaps.^[6] In SI, the elementary charge in coulombs is an approximate value: no experiment can be infinitely accurate. However, in other unit systems, the elementary charge has an exact value by definition, and other charges are ultimately measured relative to the elementary charge.^[7] For example, in conventional electrical units, the values of the Josephson constant K_J and von Klitzing constant R_K are exact defined values (written K_J-90 and R_K-90), and it follows that the elementary charge e =2/(K_JR_K) is also an exact defined value in this unit system.^[7] Specifically, e₉₀ = (2Template:E)/(Template:Gaps × Template:Gaps) C exactly.^[7] SI itself may someday change its definitions in a similar way.^[7] For example, one possible proposed redefinition is "the ampere...is [defined] such that the value of the elementary charge e (charge on a proton) is exactly Template:Gaps coulombs"^[8] This proposal is not yet accepted as part of the SI; the SI definitions are unlikely to change until at least 2015.^[9]

In everyday terms

• The charges in static electricity from rubbing materials together are typically a few microcoulombs.^[10]
• The amount of charge that travels through a lightning bolt is typically around 15 C, although large bolts can be up to 350 C.^[11]
• The amount of charge that travels through a typical alkaline AA battery is about 5 kC = 5000 C ≈ 1.4 A⋅h. After that charge has flowed, the battery must be discarded or recharged.^[12]
• According to Coulomb's law, two negative point charges of Template:Val, placed one meter apart, would experience a repulsive force of Template:Val, a force roughly equal to the weight of Template:Gaps metric tons of mass on the surface of the Earth.
• The hydraulic analogy uses everyday terms to illustrate movement of charge and the transfer of energy. The analogy equates charge to a volume of water, and voltage to pressure. One coulomb equals (the negative of) the charge of Template:Val. The amount of energy transferred by the flow of 1 Coulomb can vary; for example, 300 times fewer electrons flow through a lightning bolt than through an AA battery, but the total energy transferred by the flow of the lightning's electrons is 300 million times greater.

See also

• Abcoulomb, a cgs unit of charge
• Ampère's circuital law
• Coulomb's law
• Electrostatics
• Elementary charge
• Faraday (unit), an obsolete unit
• Quantity of electricity

Notes and references

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