12,000 BTU per hour is equal to 3.5 kW.
20.44 kva
To determine the KVA needed for a 200A panel, you can use the formula KVA = (Voltage x Amperage)/1000. Assuming a standard voltage of 120V, the KVA would be 24 KVA (120V x 200A / 1000 = 24 KVA).
To convert 2 kW to kVA in single phase, you need to know the power factor. If we assume a power factor of 0.8 (common for many single-phase loads), the conversion formula is kVA = kW / power factor. Therefore, for 2 kW at a power factor of 0.8, the result would be 2 kVA / 0.8 = 2.5 kVA.
There are 1,000 watts (W) in a kilowatt (kW) and 1,000 volt-amps (VA) in a kilovolt-ampere (kVA). Therefore, 1 kVA is equal to 1 kW.
To convert amps to kilovolt-amperes (kVA), you need to know the voltage level. The formula is kVA = (Amps × Volts) / 1000. For example, at 240 volts, 800 amps would equal 192 kVA, while at 480 volts, it would equal 384 kVA. Thus, the kVA value will vary depending on the voltage used in the calculation.
12000BTU is 4.7hp
kva and kw are related as KVA = (KW/PF) pf:power factor
1000 VA = 1 kva
About 35 square meters, depending on the average temperature reached.
1000 VA = 1 kva
20.44 kva
To determine the KVA needed for a 200A panel, you can use the formula KVA = (Voltage x Amperage)/1000. Assuming a standard voltage of 120V, the KVA would be 24 KVA (120V x 200A / 1000 = 24 KVA).
There is appoximately zero kVA in 14amp, .5 volt AC.
It is apples and Oranges--kVA and volts are different units describing different things. Determining kVA requires measuring both voltage and current.
It is apples and oranges--kVA and volts are different units describing different things. Determining kVA requires measuring both voltage and current.
1.0 kva
To convert 2 kW to kVA in single phase, you need to know the power factor. If we assume a power factor of 0.8 (common for many single-phase loads), the conversion formula is kVA = kW / power factor. Therefore, for 2 kW at a power factor of 0.8, the result would be 2 kVA / 0.8 = 2.5 kVA.