The charging time will depend on how much of a charge was left in the battery and on the charger you use to charge the battery. The more energy you have to put back in it, the longer it will take for a given charger. And some chargers will be able to deliver more current than others. This will result in a higher charging rate, and a lower elapsed time for the charging cycle.
If your load runs on 6 volts, you cannot replace it with a 12 volt battery. You will be exceeding the voltage rating of your load and will start a fire.If you want more amps (capacity) then you can wire more 6 volt batteries in parallel with the first.
300 ah means that battery can supply 300 am for 1 hr at 12v or 24 v, whichever volt it is producing. for e.g. at 450 Watt load , the current flow=450/24 at 24 volt=18.75am. life of battery will be 300/18.75=16hr and at 12 volt it will have 8hr life only at 450 watt load.
The capacities of batteries are rated in amp hours. The higher the amp hour rating of a battery the longer the device connected to the battery will operate. Depending on what the connected load draw in amps is, will determine how long the connected device will operate.
The current will remain in a 220 volt circuit as long as the circuit load remains in the circuit and the circuit remains closed.
Remember that watts are voltage x current(amps) The number of watts you can get from a 48V battery will depend on how many amps the battery can deliver and how much the load can draw.
None.
If your load runs on 6 volts, you cannot replace it with a 12 volt battery. You will be exceeding the voltage rating of your load and will start a fire.If you want more amps (capacity) then you can wire more 6 volt batteries in parallel with the first.
Ampere Hour (Ah)The capacity of the battery is represented in Ah. It is the amount of current a battery can give during one hour of charge / discharge cycle. High capacity batteries (100 Ah, 150 Ah) are used to power inverters to get sufficient backup time. The formula to select the battery power (Ah) is Load in watts / Voltage of battery x Backup hour.For example if you wants to run 400 watts load on 12 volt battery for 3 hours, then the capacity of the battery should be minimum 100 Ah.Ah = 400 / 12 x 3 = 100 Ah. If the load increases (within the capacity of the inverter), backup time reduces.
You do not charge a 7.2 volt battery with a 9.6 volt charger period unless you want to ruin the battery. You charge it with a 7.2 volt charger.
300 ah means that battery can supply 300 am for 1 hr at 12v or 24 v, whichever volt it is producing. for e.g. at 450 Watt load , the current flow=450/24 at 24 volt=18.75am. life of battery will be 300/18.75=16hr and at 12 volt it will have 8hr life only at 450 watt load.
The capacities of batteries are rated in amp hours. The higher the amp hour rating of a battery the longer the device connected to the battery will operate. Depending on what the connected load draw in amps is, will determine how long the connected device will operate.
A 12 volt battery supply a 12 VDC potential to a 12 VDC load.
This will depend on the size of the 12 v battery.
It depends on the state of charge, the length of time it is run, and the load placed up on it. Obviously, a 12 volt car battery would be expected to last a lot longer than a AAA dry cell.
Absolutely not! It is a 14 volt drill. Use a 16 or 18 volt battery will destroy the drill in short order. It will run but not for long.
3 hours
As long as the ATV is wired 12 volt, not 6.