Volts.
Using the equation V=IR
Change in voltage (measured in volts) = Current (in Amps) * Resistance (in ohms)
So a volt equals amps times ohms.
To obtain the amp of the copper bus bar, multiply the width of the bus bar by the thickness of the bus bar to obtain the current carrying capacity of the bus bar.
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volts times amps equals watts, a measure of power. Amps times hours equals amp-hours, a measure of electric charge. Electric charge times voltage is energy. So 120 volts at 10 amps for 4 hours would pass 40 amp-hours of charge, the power would be 1200 watts and the energy would be 4800 watt-hours or 4.8 kilowatt-hours. So volts times amp-hours equals energy in watt-hours.
The SI convention is that all SI units, when written in full, are written entirely in lower-case letters. For those units named in honour of individuals, only their symbols are capitalised. For example, the SI unit for power is written as watt but, because it is named in honour of James Watt, its symbol is a capital W.So it is incorrect to capitalise ampere (not amp!).
Watts= voltage times amps. So if you divide Watts by voltage, you will get amps = .33333 or about a 1/3 amp load. This is assuming a 120 volt circuit.
Multiply the amps by the volts and the answer is the VA
There are no amps in a voltage because they are quite different electrical units. They are related by the 'power equation' which is: watts = amps times volts
"milli" means a thousandth in the metric units of measurement. Thus 1000 milliamps = 1 amp.
The depends upon what you are trying to work out.
The standard unit is the ampere, commonly called "amp", symbol 'A'.
The Amps and kilowatts are different units of measurements.
1 Coulomb = 1 amp for 1 second
To find the cost per kilowatt hour, you need to know the voltage at which the current is flowing. If the voltage is 120V, then 1 amp is equivalent to 0.12 kilowatts. To find the cost per kilowatt hour, multiply the cost per amp by 0.12.
Multiply by kilovolts, and you will have it. For example: 1 amp hour X 0.120 kilovolts = 0.120 kilowatt hours
Yes, it's approximately 2 times as great.
Yes you can but only one 20 amp product it might overheat look at some better answers I'm not very good with this kind of stuff.
Yes, it does. I you have N batteries in parallel each batter supplies 1/Nth of the total current to the system. So basically each battery (and therefore the entire system) will supply power to the load N timers longer. Amp hours = Amp*hours, so if you multiply hours by N you multiply your Amp hour rating by N. Hope this helps. p.s. Amp hours do NOT add in series... basically because 1 Amp*hour = 3600 coulombs and it represents how much charge flows from the batter.