Unit definitions

Volt

The volt is the SI unit of electric potential. One volt is defined as the electric potential difference between two points on a conducting wire carrying one ampere of current and dissipating one watt of power.

Nanovolt

$\frac{1}{10^{9}} \ \text{V}$ is a nanovolt.

How to convert Volt to Nanovolt

$$\text{Electric Potential}_{\text{nV}} = \text{Electric Potential}_{\text{V}} \cdot {10}^{9}$$

Examples

Example 1

Convert $35.0\ \text{V}$ to $\text{nV}$.

$$\text{Electric Potential}_{\text{nV}} = 35.0 \cdot {10}^{9}$$

$$\text{Electric Potential}_{\text{nV}} = 35000000000$$

$$\therefore \ 35.0\ \text{V} = 35000000000 \ \text{nV}$$

Example 2

Convert $90.0\ \text{V}$ to $\text{nV}$.

$$\text{Electric Potential}_{\text{nV}} = 90.0 \cdot {10}^{9}$$

$$\text{Electric Potential}_{\text{nV}} = 90000000000$$

$$\therefore \ 90.0\ \text{V} = 90000000000 \ \text{nV}$$

Example 3

Convert $115.0\ \text{V}$ to $\text{nV}$.

$$\text{Electric Potential}_{\text{nV}} = 115.0 \cdot {10}^{9}$$

$$\text{Electric Potential}_{\text{nV}} = 115000000000$$

$$\therefore \ 115.0\ \text{V} = 115000000000 \ \text{nV}$$

Example 4

Convert $135.0\ \text{V}$ to $\text{nV}$.

$$\text{Electric Potential}_{\text{nV}} = 135.0 \cdot {10}^{9}$$

$$\text{Electric Potential}_{\text{nV}} = 135000000000$$

$$\therefore \ 135.0\ \text{V} = 135000000000 \ \text{nV}$$

Example 5

Convert $200.0\ \text{V}$ to $\text{nV}$.

$$\text{Electric Potential}_{\text{nV}} = 200.0 \cdot {10}^{9}$$

$$\text{Electric Potential}_{\text{nV}} = 200000000000$$

$$\therefore \ 200.0\ \text{V} = 200000000000 \ \text{nV}$$

Volt to Nanovolt conversion table

Volt to Nanovolt conversion table

Volt [V]	Nanovolt [nV]
1	1E+9
2	2E+9
3	3E+9
4	4E+9
5	5E+9
6	6E+9
7	7E+9
8	8E+9
9	9E+9
10	1E+10

Convert Volt to other Electric Potential units

Convert Volt to other Electric Potential units

Volt [V]	Other unit
1	1E+3 Millivolt [mV]
1	1E+6 Microvolt [μV]
1	1E+12 Picovolt [pV]
1	0.001 Kilovolt [kV]
1	0.000001 Megavolt [MV]
1	1E-9 Gigavolt [GV]