they are two different things.
P=EI. MEANS POWER EQUALS VOLTAGE TIME AMPERAGE .9 X 3.7 = 3.33 WATTS. 3.33 WATTS FOR ONE HOUR AT 3.7 volts
Yes, most AAA batteries are typically 1.5 volts. However, there are also rechargeable AAA batteries with a voltage of 1.2 volts. Be sure to check the packaging or labeling for the specific voltage of the AAA batteries you are using.
well, give me the voltage and I'll compute it. You can not figure this out without the voltage.
It is pronounced "MAH-keh-MAH-keh", with the emphasis on the first syllable.
If the power output remains constant at 305 kW, doubling the voltage from 240V to 480V will halve the current drawn by the system. This change in voltage will not change the power output; it will remain at 305 kW.
You will need a little more than 9 volts to kill a mosquito. It is recommended that you use about 2850 mAh of current to kill a mosquito.
P=EI. MEANS POWER EQUALS VOLTAGE TIME AMPERAGE .9 X 3.7 = 3.33 WATTS. 3.33 WATTS FOR ONE HOUR AT 3.7 volts
The Nintendo DS Battery: * Li-ion * 3.7 Volts DC * 850 mAh
A milliamp-hour (mAh) is a measure of quality of a battery. It tells you how many hours the batter can provide one milliamp of current before it will die. A volt is the unit of electric potential. AA, AAA, C, and D batteries are all 1.5 Volts. A 9 Volt is 9 Volts. Car batteries are 12 Volts. AA's are typically rated in thousands of mAh. Cs and Ds are more, AAA and 9 Volts are typically less. If you know the power that a device consumes [i.e. Remote, wireless game controller], you can calculate how long your batters will last in the following manner. Time = [mAh / 1000] * [# of batteries * battery voltage] / device power Ex: Device is rated at 1W using 4 AA [1.5 Volt] batteries rated at 1000mAh. Time = [ 1000mAh / 1000 ] * [4 * 1.5 Volts] / 1 W = 6 Hours
1000 mAh is the capacity of the battery. A single rechargeable cell would give 1.5 volts, regardless of its capacity.
The milli-amp-hours rating has nothing to do with the voltage. The rating should be something like 3000 mah at 12V or 3000 mah at 1.5V. One common 3000 mAh battery is 3.0 volts; another is 3.7 volts. A common camcorder battery is 7.4 volts. Some DeWalt tools use 12 V 3000 mAh batteries.
Use a full wave bridge rectifier.
Mah Nà Mah Nà was created in 1968.
That is impossible. That are different things.
The ohms will usually stay the same unless the Amps are somehow effecting the temperature. The Amps will always change with the volts.
It has a lithium ion polymer battery but I don't know anything else about it besides that its 3.7 volts. Sorry but i don't know the mAH.
It depends on the voltage. WH = Watt Henry, mAH = milliamp Henry, watts = amps * volts and milliamps= 1000 * amps. Thus the conversion is: mAH = 1000 * WH / V, where V is the voltage. I'm looking at the battery for my Dell Studio and it's rated 85WH and 11.1V. So it's 1000 * 85 / 11.1 = 7658 mAH, so in this case 85WH is better than 6600 maH. If we solve 1000 * 85 / V = 6600, we get V = 12.9. When converting from WH, the bigger the voltage the lower the mAH. So for voltages bigger than 12.9 V, 6600mAH is better than 85WH. Hope this helps.