There are zero watts in 700 volts.
For a system with unity power factor, 6000 Watts is equivalent to 6 KVA.
KVA (kilo Volt Amps) is a unit of measure for the quantity Apparent Power. The Watt is a unit of measure for Real Power. Apparent Power is the vector sum of Real Power and Reactive Power, but Apparent Power can be calculated by multiplying the scalar Voltage (Volts) and Current (Amps) quantities. These different power terms have significance only for AC (Alternating Current) electrical systems. For DC (Direct Current) systems, power is simply the product of voltage and current and is measured in Watts.
One way to understand the difference between the apparent power and real power is to recognize that real power is often called heating power or the ability of a system to do real, usable work. Reactive power is the energy "lost" in inductive and capacitive elements of a power system.
It depends on the power factor. If the power factor is unity, i.e. a resistive load, then there will be 7 KVA. If the power factor is less than unity, as is often the case in reactive loads such as motors, then there will be more than 7 KVA. As an example of a power factor of 0.707, representing a voltage to current phase angle of 45 degrees, there will be about 9901 KVA.
In the worst case of a theoretically perfect inductive or capacitive load, along with a theoretically perfect power source and conductors, the phase angle would be 90 degrees, the power factor would be zero, and the KVA would be infinite.
Watts and volts are not equivalent and the power in watts is equal to the voltage times the current.
So with 7000 volts, if the current is zero the power could be zero watts. But if the current is 100 amps you would have 700 kW.
7000 watts is 7 kW. To find the kVA, divide by the power factor, which is always 1 or less, so the kVA number is always either equal to or more than the kW.
6000 kilowatts
Yes. There are 1,000 watts per kW
5
6kva
5kva
20 kva a watts
0 - 1000. KVA times a power factor gives you kilowatts, 1000 x watts. If the power factor is 0, then o watts make up your one kVA; if the power factor is 1, then 1000 watts make up your one kVA. Typical power factor is in the range of .8 to 1.
1 KVA = 1,000 watts or in other terms, 1 Kilowatt.
VA and Watts are different names for the same thing but denote different uses. Watts is actual power and VA would be used for potential power. So 5kVA = 5000 Watts. kVA = volts x amps / 1000 kW = volts x amps x power factor / 1000
There are ~5.9 kVA with 5600 watts and a power factor of 0.95. power factor is defined as the real power (watts) divided by the complex power (volt amperes): .95 = 5600/VA VA = 5600/.95 = 5894.7VA = 5.89kVA
20 kva a watts
8,000 watts = 8 kVA / (the power factor) If the power factor is 1, then 8 kVa = 8,000 watts.
0 - 1000. KVA times a power factor gives you kilowatts, 1000 x watts. If the power factor is 0, then o watts make up your one kVA; if the power factor is 1, then 1000 watts make up your one kVA. Typical power factor is in the range of .8 to 1.
1 KVA = 1,000 watts or in other terms, 1 Kilowatt.
1hp = 735.5 watts 16,000 kVA / 735.5 = 21.754 hp
VA and Watts are different names for the same thing but denote different uses. Watts is actual power and VA would be used for potential power. So 5kVA = 5000 Watts. kVA = volts x amps / 1000 kW = volts x amps x power factor / 1000
There are ~5.9 kVA with 5600 watts and a power factor of 0.95. power factor is defined as the real power (watts) divided by the complex power (volt amperes): .95 = 5600/VA VA = 5600/.95 = 5894.7VA = 5.89kVA
To find amps if watts and volts are known, use the formula; watts / volts = amps or 5000 / 240 = 20.83 amps
It could be as much as 63 kW (63,000 Watts) into a load with a power factor of 1.0. For other loads, multiply the kVA by the power factor.
5
The term horsepower has several definitions, depending on usage. According to WikiPedia, the Electric Motor usage is 746 watts. One kva (kilo-volt-amp) is 1,000 watts, so you might be able to say that one kva is 746,000 watts. Unfortunately, kva depends on phase angle and, except for a power factor of one (purely resistive), kva is not the same as kw (kilo-watts). Someone else with more knowledge than I will need to enhance this answer.
If you multiply kVA by Power Factor (Ranges from zero to one) you get watts which is effective power.