Depends on the cell/battery chemistry.
The most common voltage for a cell is 1.5V, but you can have anything from 1.2(Ni-Cd, NiMH) to 3.7(Li-Po, Li-Io).
An automotive battery cell produces 2.2 volts.
0.016 volt
4 volts = 4,000 mV.
Watts = Volts x Amps x Power Factor. An incandescent light bulb is a resistive load so PF = 1. ANSWER: = 1/2 Amp
Typical D cell batteries NiCad or otherwise are 1.2 volts.
about 0.5 volts per potato (big one)
Depends on which kind of cell. From 1.2 volts to 3.6 volts in the various types of cell.
2 volts
13,800 volts 1 kv = 1 kilovolt = 1000 volts
1 megavolt = 1,000,000 volts
1 million volts.
There are zero volts in .1 amps.
2.2v when charged.
1.0 kilo volts = 1000 volts1000 effective volts is 1kV.
Most calculators use 1.5 volts from small button-cell batteries, such as LR44 or CR2032.
Depends on the cell chemistry, which determines the cell voltage. And the degree of charging. Can be anything from 3x1.2 to 3x3.6.
You look at the job you need to do, ie, how many volts and amps, or volts and watts, that you need. Then you look in the catalogs for a solar cell or solar cell array to produce that much power.
The typical voltage found in a human cell is around -70 millivolts.