Kilovolt = 1000 volts.
energy per watt
A transformer's capacity is rated in volt amperes(V.A). This is the product of the secondary winding's current rating and voltage rating.
10.2 kilo ohms is the resistance necessary for 1 volt to induce a current of 98.04 micro amperes. Ohm's law: voltage equals current times resistance.
RKVAH stands for Rated Kilo Volt Amperes per Hour. It basically refers to the reactive power and is commonly seen in industrial energy meters.
10.2 kilo ohms is the resistance necessary for 1 volt to induce a current of 98.04 micro amperes. Ohm's law: voltage equals current times resistance.
kilo means 1000 so multiply by 1000 to get from 1 volt to 1 kilo volt
Kvar = Kilo Volt Amp Reactance.
energy per watt
A volt-amp or VA is equivalent to watts, provided the voltage and amperage are in phase. So 1 kilo volt amp is the same as 1 kilowatt. Wattage, or power, is equal to volts times amps. So the original question is effectively nonsense. The number of amps depends on the voltage. If the voltage is 1000 volts, then there's 1 amp in 1 kilo volt amp. If the voltage is 1 volt, then there's 1000 amps. If there's 50 volts, then the amperage is 20 amps. And so on.
kVA is kilo-volt-ampere, which is 1000 x volt x ampere. kVA is the unit of apparent power in AC circuits.
Amp, Amperes is current. Volt, and any variation, is tension. There's no direct translation between them.
There is zero amps in one kilo volt amp. The terminology of KVA is (K) kilo meaning one thousand, (V) for volt and (A) for amperage. What is missing from the equation is a given voltage. Formula for finding the answer is I = (VA or W)/V .
A transformer's capacity is rated in volt amperes(V.A). This is the product of the secondary winding's current rating and voltage rating.
2.083 amps
12kv is equal to 12000 volt.(12*1000).
KVA means kilo volt amps or kilo Watts. A watt = 1 volt X 1 Amp. Kilo is shorthand for 1000. A watt is a measure of power, which is voltage x amps. Therefore it is not possible to relate voltage to KVA without additional information. Formula wise the above is correct but if you really need the voltage, it can be measured with a volt meter or VOM by putting the test leads across the output terminals of the KVA device.
That type of transformer normally has about 99% efficiency so the full-load loss would be 1% or 6 kW.