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24 Volts.
The small batteries (dry cells) used for many electronic devices usually have approximately 1.5 volts. Car batteries (which have several cells working in series) usually have around 12 volts. Other batteries may have other voltages.
Depends on the cell chemistry, which determines the cell voltage. And the degree of charging. Can be anything from 3x1.2 to 3x3.6.
A single AA battery will produce 1.5 volts. In series the voltage is additive. In parallel the voltage remains the same but the batteries total capacity is increased.
The formula you are looking for is Vt = V1 + V2.
The formula you are looking for is Vt = V1 + V2.
The formula you are looking for is Vt = V1 + V2.
C batteries use 1.5 volts. The number of amps depends on what device it is hooked up to. An average for four C batteries would be about 16 amps.
You need to multiply the number of coulombs by the number of volts. If the two batteries are in series, then you can add the voltage of both batteries.
The amperage drawn from batteries is governed by the connected load. The voltage of the batteries can be one of two voltages. in parallel the 8 batteries will give you a voltage of 6 volts. In series the 8 batteries will give you a voltage of 48 volts. The amp/hour capacity of the batteries will give you the amount of current the device can draw over a specific length of time. Equation to fine amperage is I = W/E, Amps = Watts/Volts. Watts = Amps x Volts.
22 (1.5 volts each) AA batteries
A 12 Volt, 50 AH battery delivers 6,000 Watt-Hours of electricity. Two 12 volt, 50 AH batteries, wired in series provide 24 Volts at 50 AH, which now delivers 12,000 Watt-Hours of electricity. Wiring the two batteries in series changes the voltage, but not the amperage. Wiring the two batteries in parallel changes the Amperage, but not the voltage.