Could be zero, could be 1000 amps. Amps are not the same thing as volts.
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β 10y agoThe number of amps in 1 MVA (megavolt-ampere) will depend on the voltage of the system. To calculate amperes, you can use the formula: Amperes = MVA / (sqrt(3) x kV), where kV is the voltage of the system in kilovolts.
This depends on the voltage ... amps = watts / volts 660 W / 110 V = 6 amps 660 W / 220 V = 3 amps 660 W / 330 KV = 2 mA
30 amps at 12 volts is equal to 360 watts (P = V x I).
A 30 amp circuit can handle a maximum of 30 amps of current flow continuously without tripping the circuit breaker. It is important not to exceed this amperage to prevent overheating and potential fire hazards.
A double breaker is a breaker that has 2 switches on it. One of the switches is 20 amps and the other is 30 amps.
To convert kilovolts to watts, multiply by 1000. Therefore, 5500 kilovolts is equal to 5,500,000 watts. To calculate the amperage, you would need to know the voltage of the system in question as amperage is dependent on both voltage and watts.
Yes
Multiply by Amps.
This depends on the voltage ... amps = watts / volts 660 W / 110 V = 6 amps 660 W / 220 V = 3 amps 660 W / 330 KV = 2 mA
Basically the formula is I = P / V where I = amps, P = power (kV) and V = volts for a single phase 11 kV genset the formula is 11000/400 = 27.5 amps max load. For a 3 PHASE GEN then 11000x0.8/400/3 = 7.3 amps per phase.
220 KV lines used in Kerala have a capacity of 880 Amps
above thirty (30) KV (rms)
more that 30
kV is kilovolts, kW is kilowatts, kVA is kilovolt amps and kVAR is kilovolt-amps reactive. A common formula is kVA-squared = kW-squared + kVAR-squared.
The amp rating of a transmission line is the maximum current that can safely flow through the line without causing damage. This rating is based on the material, size, and design of the transmission line to ensure it can handle the electrical load without overheating or overloading. It is important to adhere to this rating to maintain the safety and efficiency of the transmission line.
Full load amps for a three phase, 375KVA generator is 375 / (voltage in kV) / sqrt(3).
There are 0.001 KV in one V.