Converts voltage from one unit to another e.g. from milivolts (mV) to volts (V) or vice versa.

Beta version

BETA TEST VERSION OF THIS ITEM
This online calculator is currently under heavy development. It may or it may NOT work correctly.
You CAN try to use it. You CAN even get the proper results.
However, please VERIFY all results on your own, as the level of completion of this item is NOT CONFIRMED.
Feel free to send any ideas and comments !

Inputs data - value and unit, which we're going to convert

Value
Unit
Decimals

1 (volt) is equal to:

SI

Unit	Symbol	Symbol (plain text)	Value
yottavolt	Show source $YV$	YV	1×10^-24
zettavolt	Show source $ZV$	ZV	1×10^-21
exavolt	Show source $EV$	EV	1×10^-18
petavolt	Show source $PV$	PV	1×10^-15
teravolt	Show source $TV$	TV	1×10^-12
gigavolt	Show source $GV$	GV	1×10^-9
megavolt	Show source $MV$	MV	0.000001
kilovolt	Show source $kV$	kV	0.001
volt	Show source $V$	V	1
decivolt	Show source $dV$	dV	10
centivolt	Show source $cV$	cV	100
milivolt	Show source $mV$	mV	1000
microvolt	Show source $\mu V$	µV	1000000
nanovolt	Show source $nV$	nV	1000000000
pikovolt	Show source $pV$	pV	1×10¹²
femtovolt	Show source $fV$	fV	1×10¹⁵
attovolt	Show source $aV$	aV	1×10¹⁸
zeptovolt	Show source $zV$	zV	1×10²¹
yoctovolt	Show source $yV$	yV	1×10²⁴

Unit	Symbol	Symbol (plain text)	Value
stat (ESU)	Show source $statV$	statV	0.003335641
ab (EMU)	Show source $abV$	abV	1×10¹⁸

Some facts

The electric potential in point is the ratio of the amount of work (done by electrical force) that should be done in order to move the electric charge from this point to the infinity to the value of this charge:

$\varphi(x_0) = \dfrac{W_{x_0 \rightarrow \infty}}{q}$
where:
- $\varphi(x_0)$ - electric potential at $x_0$ ,
- $W_{x_0 \rightarrow \infty}$ - work to be done to move the charge q from point $x_0$ to infinity,
- $q$ - charge value.
The electrical voltage is the electrical potential difference measured in two selected points:

$U_{AB} = \varphi_B - \varphi_A$
where:
- $U_{AB}$ - electric voltage beetwen points A and B,
- $\varphi_A$ - electric potential in point A,
- $\varphi_B$ - electric potential in point B.
ⓘ Remember: Electric voltage always applies to two points. When we talk briefly about voltage, in practice we have in mind the voltage between the points (or in other words: the voltage in relation to the reference point). In the case of electronic circuits, the reference point is usually the so-called ground, against which all voltages (potentials) in the circuit are measured.
The basic unit of the electrical voltage is one volt (1V).
The electrical voltage is usually denoted with a capital letter U or V.
The device for measuring the voltage is voltmeter.

How to convert

Enter the number to field "value" - enter the NUMBER only, no other words, symbols or unit names. You can use dot (.) or comma (,) to enter fractions.
Examples:
- 1000000
- 123,23
- 999.99999
Find and select your starting unit in field "unit". Some unit calculators have huge number of different units to select from - it's just how complicated our world is...
And... you got the result in the table below. You'll find several results for many different units - we show you all results we know at once. Just find the one you're looking for.

Tags and links to this website

Tags:

voltage · electric_potential · voltage_units_converter · units_of_electrical_voltage · converter_of_electric_potential_units

Tags to Polish version:

napiecie_elektryczne · potencjal_elektryczne · konwerter_jednostek_napiecia_elektrycznego · jednostki_napiecia_elektrycznego · konwerter_jednostek_potencjalu_elektrycznego

What tags this calculator has

CONVERTER · PHYSICS · ELECTRONICS · A -> Z (all)

Permalink

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https://calculla.com:443/voltage?inUnitId=V&inValue=1&inPrecision=9

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