Power = Voltage * Current
Current = Power/Voltage, = 2,750,000/110,000 = 25 amps.
13 amperes is 13 amperes. Plain and simple. If you are asking how much power, i.e. how many watts, there is not enough information in the question to answer it. You need to specify voltage or resistance along with current in order to calculate power. You might also need power factor. Please restate the question.
Power=Volts x Amps Unit for power is watts
Electrical power = current x voltage Current is in amps
Power consumption is measured in many different ways.Power is usually measured in WattsVoltage usually in VoltsResistance in Ohmsand Current (or flow rate) in AmpsGoogle for "Ohms Law"AnswerYou do not 'consume' power. Power is the rate at which work is done.
Watts = Voltage X Amperes X Power Factor Power Factor = Cosine of the Angle between Voltage and Current For purely resistive circuits, Power in Watts = Voltage X Amperes Watts divided by 1000 = kiloWatts
13 amperes is 13 amperes. Plain and simple. If you are asking how much power, i.e. how many watts, there is not enough information in the question to answer it. You need to specify voltage or resistance along with current in order to calculate power. You might also need power factor. Please restate the question.
KVa is not the same as the amperes because KVa is the unit for reactive power while amperes is the unit for current.
Power=Volts x Amps Unit for power is watts
You can't really compare that. Amperes and watts measure completely different things. On the other hand, any time there are amperes, there are also watts. The relationship is:P = I^2 x R or in units: watts = amperes squared x resistance
If you refer to the units, power (any power, not just electrical power) is energy divided by time. The SI unit is the watt, equal to 1 joule/second.
The symbol, kV.A (not 'KVA'!) represents 'kilovolt amperes', and is a multiple of the volt ampere, used to measure the apparent power of an a.c. circuit, that is the product of supply voltage and load current.Apparent power (expressed in volt amperes) is the vectorial sum of a load's true power (expressed in watts) and its reactive power (expressed in reactive volt amperes).
Electrical power = current x voltage Current is in amps
Power = Amperes x Voltage
Power = volts x amperes x power factor. However, VA or kVA is simply the product of volts x amperes, and does not take into account the power factor. Note that in many practical situations, the power factor is close to 1.
Power consumption is measured in many different ways.Power is usually measured in WattsVoltage usually in VoltsResistance in Ohmsand Current (or flow rate) in AmpsGoogle for "Ohms Law"AnswerYou do not 'consume' power. Power is the rate at which work is done.
No. It is apparent power (expressed in volt amperes) that is the combination (vector sum) of true power (expressed in watts) and reactive power (expressed in reactive volt amperes). 'Imaginary power' is simply another name for 'reactive power' -where 'imaginary' is simply mathematicians-speak for 'quadrature' or 'right angles'.
A: POWER consumption is total power usage power dissipation is wasted power in the form of heat, IR drop and so on.