Actually, the question itself does not provide enough information as required to provide an answer. To determine wattage, both amperage and voltage must be known, and voltage has not been stated in the question.
Only an educated guess can be given as an answer. Specifically, knowing that "63 amp" is a common rating for a pin & sleeve type IEC 60309 interconnect used outside of North America, a "63 amp" connector is most commonly deployed with single-phase power distribution systems that provide a Phase voltage of 220V, 230V or 240V. Thusly, because amperage multiplied by voltage provides watts, some possible answers are:
13.86kW (63A x 220V)
14.49kW (63A x 230V)
15.12kW (63A x 240V)
If the power system is a three-phase 220/380V, 230/400V or 240/415V type, multiply the kW values above by a factor of "3".
AnswerYour question doesn't actually make any sense, I'm afraid, as you are referring to three entirely different quantities and units of measurement.
As these are all different quantities, you cannot equate one with the other!
Assuming the power factor is 1, a 10 hp motor operating at 600 volts in a three-phase system would draw approximately 13.33 amps.
It depends on the internal circuit of the machine. If it is star operated its full load current will be same as rated current. If it is Delta operated its full load per phase current will be as given below : Phase current = Line Current / 1.732
In a three-phase 225 amp panelboard, each phase will carry 225 amps. This means that the total current flowing through the panelboard is distributed evenly across the three phases, allowing for a maximum of 225 amps on each phase at a time.
In a three phase 225 amp panel, there would be a total of 225 amps available for each phase, making it a total of 675 amps for all three phases combined. This means that you could have up to 225 amps of current flowing through each phase simultaneously.
For a 1hp 3-phase motor, the current draw will depend on the voltage supply. Typically, at 230V, a 1hp 3-phase motor will draw around 3.6 amps. However, this value may vary based on the motor efficiency and power factor.
24 amps. This could be three 11.54 resistors connected in star, or three 34.6 ohm resistors connected in delta.
50 Amps Single Phase 20 Amps Three Phase
Assuming the power factor is 1, a 10 hp motor operating at 600 volts in a three-phase system would draw approximately 13.33 amps.
It depends on the internal circuit of the machine. If it is star operated its full load current will be same as rated current. If it is Delta operated its full load per phase current will be as given below : Phase current = Line Current / 1.732
In a three-phase 225 amp panelboard, each phase will carry 225 amps. This means that the total current flowing through the panelboard is distributed evenly across the three phases, allowing for a maximum of 225 amps on each phase at a time.
In a three phase 225 amp panel, there would be a total of 225 amps available for each phase, making it a total of 675 amps for all three phases combined. This means that you could have up to 225 amps of current flowing through each phase simultaneously.
For a single phase circuit, the equation you are looking for is I = W/E. Amps = Watts/Volts.
The electrical code states that a 30 HP induction motor at 460 volts three phase will draw 40 amps. <<>> I = 33.34 AMPS IF EFF.= 95% AND P.F.= 85%
For a 1hp 3-phase motor, the current draw will depend on the voltage supply. Typically, at 230V, a 1hp 3-phase motor will draw around 3.6 amps. However, this value may vary based on the motor efficiency and power factor.
To answer this question the voltage of the heater must be given. I = W/E.
read the name plate on the motor
Assuming it is a 208-volt line voltage (as normal in 3-phase) the phase voltage is that divided by sqrt(3), or 120 volts. Each phase has to supply 10 kW so the current on each phase is 83.3 amps.