voltage=joule/coulomb or voltage=24/10. the answer is 2.4V
2.4 v
volt or voltage.
Volt/Voltage
yes, it's OK to charge the battery. A switch like this is controlled by voltage so low voltage could make the switch not work.
A battery float charger is intended only to keep a fully charged battery from losing its charge. It will NOT work to charge a battery that is discharged or damaged. Check the voltage of the battery to be charged. Do not use charger if the battery voltage is less than 9.6 volts.
According to the magnitude of said current will be the time needed for charging. For there to be a current flow to the battery, the charger must provide a voltage (voltage) higher than the battery, this is the reason why we can not charge a 12V battery from another. Or at least, could not, as we shall see later.
The anodes and cathodes affect the voltage of the battery all the time. Without them, the battery would not work. The anode provides the positive charge or current. The cathode provides the negative charge or electrons. Part of the anode is down in the battery and part serves as a terminal. Part of the cathode is down in the battery and part serves a a terminal.
ask the battery. Not me
Sorry, but that is not likely to work. Both the voltage and amperage provided by a charger for a laptop battery will not be correct for a car battery. It is likely that you will damage the charger.
Some have a switch for 6 or 12V - if not you will "cook" a 6 volt battery using a 12 Volt charger
V = W/Q where V = voltage / Volts W = Work Done / J Q = Charge Passed / C therefore your answer is W = VQ = 12*80 = 960 J
The potential difference ('voltage') is equal to the work done per unit charge, i.e. the energy given to each Coulomb of charge. So, a six Volt battery provides six Joules of energy to each Coulomb of charge.