Convert Nanovolt to Volt
Unit definitions
Nanovolt
$\frac{1}{10^{9}} \ \text{V}$ is a nanovolt.
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.
How to convert Nanovolt to Volt
$$\text{Electric Potential}_{\text{V}} = \frac{\text{Electric Potential}_{\text{nV}}}{{10}^{9}}$$
Examples
Example 1
Convert $20.0\ \text{nV}$ to $\text{V}$.
$$\text{Electric Potential}_{\text{V}} = \frac{20.0}{{10}^{9}}$$
$$\text{Electric Potential}_{\text{V}} = 0.00000002$$
$$\therefore \ 20.0\ \text{nV} = 0.00000002 \ \text{V}$$
Example 2
Convert $70.0\ \text{nV}$ to $\text{V}$.
$$\text{Electric Potential}_{\text{V}} = \frac{70.0}{{10}^{9}}$$
$$\text{Electric Potential}_{\text{V}} = 0.00000007$$
$$\therefore \ 70.0\ \text{nV} = 0.00000007 \ \text{V}$$
Example 3
Convert $110.0\ \text{nV}$ to $\text{V}$.
$$\text{Electric Potential}_{\text{V}} = \frac{110.0}{{10}^{9}}$$
$$\text{Electric Potential}_{\text{V}} = 0.00000011$$
$$\therefore \ 110.0\ \text{nV} = 0.00000011 \ \text{V}$$
Example 4
Convert $145.0\ \text{nV}$ to $\text{V}$.
$$\text{Electric Potential}_{\text{V}} = \frac{145.0}{{10}^{9}}$$
$$\text{Electric Potential}_{\text{V}} = 0.000000145$$
$$\therefore \ 145.0\ \text{nV} = 0.000000145 \ \text{V}$$
Example 5
Convert $180.0\ \text{nV}$ to $\text{V}$.
$$\text{Electric Potential}_{\text{V}} = \frac{180.0}{{10}^{9}}$$
$$\text{Electric Potential}_{\text{V}} = 0.00000018$$
$$\therefore \ 180.0\ \text{nV} = 0.00000018 \ \text{V}$$
Nanovolt to Volt conversion table
Convert Nanovolt to other Electric Potential units
| Nanovolt [nV] | Other unit |
|---|---|
| 1 | 0.000001 Millivolt [mV] |
| 1 | 0.001 Microvolt [μV] |
| 1 | 1E+3 Picovolt [pV] |
| 1 | 1E-12 Kilovolt [kV] |
| 1 | 1E-15 Megavolt [MV] |
| 1 | 1E-18 Gigavolt [GV] |