The 50 amp charging circuit will never be able achieve a full charge for the 70 amp hour battery, thus in effect turning the 70 amp hour battery into a 50 amp hour battery.
Real-world batteries do not have zero internal resistance. When one connects a load (resistance) to a battery, current begins to flow and the open-circuit potential is divided between the battery's internal resistance and the resistance of the load. Thus, one will measure a lower voltage at the battery terminals when a load is connected, compared to no-load conditions.
Your question is very muddled and it is difficult to understand exactly what you are asking. Something is in "series" if it is connected in the circuit as a "daisy chain". Thus both loads AND batteries may be placed in series.
If a three light circuit is connected in series with two 6V batteries, and the three lights are identical, the voltage across each of the lights is 12V divided by 3, or 4V.
There is no answer to this question. It could be anywhere between 2.5V and 12V. If you connected them in series the answer would be 20.5V, in parallel the higher voltage battery will discharge into the lower rated cells, the resultant voltage is dependent upon the internal resistance of each of the batteries. In practice you wouldn't do this, so it's either a mistake or trick question. www.powerinspired.co.uk
The voltage in your house is AC. It is in the form of a sine wave that goes positive and negative 60 times a second. To charge a battery you need DC so you do an AC to DC conversion and then apply the DC to the battery charging circuit that applies the correct charging current to the battery and checks on the state of the charge.
To connect two batteries in series, you would connect the positive terminal of one battery to the negative terminal of the other battery. This creates a circuit where the voltage of the batteries adds up, providing a higher total voltage for the circuit.
If the batteries are connected from + (positive) to - (negative) then the batteries are connected in "series". If the batteries are AA (1.5v each), then the resulting voltage of the two connected in series will be 3.0v. If the batteries are connected + to + and - to -, then they are connected in "parallel" and for the same batteries the voltage would be 1.5v, but would last twice as long as one battery by itself. A truck battery system is two 12v batteries connected in series (+ to -) to give the truck a running power of 24v.
If each battery is identical, yes.
In a parallel circuit, batteries are connected side by side, allowing each battery to provide power independently. In a series circuit, batteries are connected end to end, increasing the total voltage but requiring all batteries to work together to provide power.
Ipod touch batteries don't overcharge. But if you took the battery out of the ipod, then attempted to charge that somehow, then it probably could overcharge. Ipod touch batteries are wired up in a circuit that, once the battery is full, it won't put more power into the battery. Other things like laptops are the same. Only batteries like rechargeable AA or AAA batteries, which are not connected to a circuit when charging, can technically overcharge, unless they are connected to, lets say a wireless mouse, and when you plug the mouse in it charges, then that kind of batteries don't over charge, unless the product (wireless mouse) says that it can, unless the mouse says that it does not protect against overcharging. If you noticed a major change in the battery performance, see your nearest apple store. Also, read the manual, it tells u lots of stuff about charging, and how to maximize the use of the battery. Enjoy!
The voltage depends on how the two batteries are connected to one another. If they are connected in a series circuit (positive end to negative end) the voltage will double. If they are wired in a parallel circuit, (It
Batteries function within an electrical circuit by converting chemical energy into electrical energy. When connected to a circuit, the battery's chemical reactions create a flow of electrons, which generates a voltage that powers the circuit.
1 - the battery itself no longer works properly 2 - the battery's charging circuit (this applies to portable devices with custom lithium-ion batteries) is malfunctioning 3 - the power source is not providing enough power to charge it.
The purpose of the battery in a circuit is to wive energy to the circuit
1 - the battery itself no longer works properly 2 - the battery's charging circuit (this applies to portable devices with custom lithium-ion batteries) is malfunctioning 3 - the power source is not providing enough power to charge it.
Batteries store energy in the form of chemical energy through chemical reactions that occur within the battery. When the battery is connected to a circuit, these reactions release electrical energy that can power devices or systems.
with wires and batteries