The total votage would be 6 Volts
Assuming all of the individual batteries are the same voltage, if arranged in a parallel circuit the voltage is the same as any one battery. If arranged in a series circuit the voltage will be the sum (the total) of all of the batteries added together.
The batteries can be connected in parallel or in series. In parallel, good batteries of the same voltage will have a total voltage across them equal to the voltage across one of them. Those batteries in series will have a total voltage equal to the sum of the voltage of each of the batteries.
When batteries are connected in parallel, the voltage remains the same as the voltage of a single battery. This is because the positive terminals are connected together and the negative terminals are connected together, so the voltage across each battery remains constant.
Yes.If you connect the batteries in series the total voltage will be the sum of the voltages of the batteries.For example if you connect a 12 volt battery in series with a 6 volt battery the total voltage will be 18 volts.
Enough so that the total voltage exceeds the voltage rating of the lightbulb.
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.
Type your answer here... To use two batteries as a single power source, you have to connect the positive to the negative and the remaining negative to ground. The remaining positive goes to the red positive cable. The batteries are now in a series circuit. If you use two 6 volt batteries the total voltage is 12 volts. If you use 2 12 volt batteries the total voltage is 24 volts. If you hook the batteries both negative to negative and positive to positive you have made a parallel circuit. Batteries in a parallel circuit cancel each other out. Two 6 volt batteries in parallel have a total voltage of 0 volts. klb
This is about the question I wanted answered; maybe I can point you in the right direction. The answer is more than the sum of 70 batteries as putting them in series increases the voltage and increases the total energy of the system. My question is where does the increase of energy actually come from?
4 amperes. The voltage adds when batteries are connected in series. If they are the same voltage then the voltage doubles. Using Ohm's law: V = I*R with the voltage doubling and resistance being the same you get I = 2V/R and where V/R was your initial current you get I = 2*2ampers = 4 ampreres
The induced voltage acts to oppose any change in current that is causing it. So, if the current is increasing, then the induced voltage will act in the opposite direction to the supply voltage; if the current is decreasing, then the induced voltage will act in the same direction as the supply voltage.
You get the lowest voltage. Although it's not quite that simple. The higher voltage batteries will charge up the lower voltage ones to some extent, so you'll get the highest voltage that the lowest voltage battery can support while being charged by the other batteries.
Connect positive to negative, leaving the end positive and negative connections free to power circuits or devices. Connecting batteries in series adds the voltage of the batteries. For instance, connecting three 12v car batteries in series will create a total of 36v, enough for welding.