That will depend on a few things. The current output of the battery will depend on the operating voltage of the battery and the load resistance. If you know the load resistance and operating voltage, you can calculate the current using Ohm's Law. The Ohm's Law equation is I=V/R where "I" represents current in Amps, "V" represents voltage in volts and "R" represents resistance in ohms.
For a standard C battery, the operating voltage will start out at approximately 1.5 Volts but that voltage will decrease as charge is drained from the battery. The load resistance should remain constant so the current output of the battery will steadily decrease over time. You could use a multimeter to measure the voltage and load resistance across the terminals of the battery.
See the related link for a Duracell C battery datasheet for more details on how a battery would operate under standard usage conditions.
Parallel
No. They will result in greater voltage.
Connect three 12 volt batteries in series and you will have 36 volts but will only have the amperage of one of the batteries.
technically speaking all you do is increase the voltage if the batteries are ran in a series circut and you increase amperage if they are ran in a paralell circut
Connect three 12 volt batteries in series. You will triple the amperage but the volts will remain at 12. Click the link
An electric car needs to be charged until the indicator on the charger says the batteries are charged. It will depend on the amperage of the batteries, the way the charging mechanism works, and the percentage of discharge of the batteries.
The amperage drawn from batteries is governed by the connected load. The voltage of the batteries can be one of two voltages. in parallel the 8 batteries will give you a voltage of 6 volts. In series the 8 batteries will give you a voltage of 48 volts. The amp/hour capacity of the batteries will give you the amount of current the device can draw over a specific length of time. Equation to fine amperage is I = W/E, Amps = Watts/Volts. Watts = Amps x Volts.
No absolutely not. While there are some standard styles, batteries range from model to model, from brand to brand. You can have standard batteries, or you can also get extended life batteries.
The amperage drawn from a C cell battery is governed by the load resistance. The lower the resistive load the higher the amperage draw from the battery.
An F350 diesel will have them both under the hood, towards the front of the engine, with one on either side of the engine. The two batteries wired in parallel gives greater cranking amperage.
Depends on the quality of the battery, the number of batteries, and the amperage drawn by the bulb or LED.
Not very many flashlights use c batteries, but one example would be the 3C ProPolymer LED flashlight.It is Powered by 3 C alkaline batteries.