It depends on the terminal voltage of the batteries, as different types of battery (or, more accurately, 'cell') have different terminal voltages.
A car battery has Approx 12 V, so ten of them.
24 Volts.
Assuming a standard D battery has a voltage of 1.5 volts, it would take approximately 35 D batteries (52 volts / 1.5 volts per battery = 34.67). However, in reality, you cannot directly power a 52 volt light bulb using D batteries as the voltages do not match.
I believe that AA batteries are rated at 1.5 volts each, so if you were to take 6 of them and wire them together in series that would produce a circuit that's pushing 9 volts. But recharge AA batteries are only 1.2 volts per unit so a little lower voltage will be the result. I think most devices will still work on the lower voltage. Also these batteries will never last as long as the regular dry cell.
Volts don't make power. Watts do. Watts = (volts) x (amps) 1 horsepower = 746 watts
It takes eighth batteries. each battery, being AA, A , C,or D have 1.5v per cell. if you put them all in series; neg. - pos., neg - pos., and so on it will take eight D batteries to make 12 volts.
80, all connected in series.
It would take 3 batteries of 12 volts each to get 36 volts. You would connect the negative pole to the positive pole. Then you would have 36 volts. Make sure you connect positive to positive and negative to negative on your golf cart. Otherwise, you can ruin everything.
It would take about 30 AA batteries to make a pound. Each AA battery typically weighs around 0.8 ounces, so you would need 16 batteries to equal one pound.
Volts don't make power. Watts do. Watts = (volts) x (amps) 1 horsepower = 746 watts (Doesn't matter if the source is AC, DC, or a combination of both.)
4.5~5.3
Take 3 twelve volt batteries Run the + of battery #1 to the - of battery #2. Run the + of battery #2 to the - of battery #3. Use the + of battery #3 for your positive feed, and the - of battery #1 for your ground.
To connect two 12-volt batteries to achieve 24 volts, connect the positive terminal of the first battery to the negative terminal of the second battery. The remaining free terminal on the first battery (negative) and the free terminal on the second battery (positive) will provide the 24 volts. Ensure that both batteries are of the same type and capacity for optimal performance. Always take safety precautions when working with batteries to prevent short circuits or damage.