3000 milliamps is equal to 3 amps. To convert milliamps to amps, you divide by 1000.
100 amps
To calculate the amperage for a 10kW heater on a 3-phase 220V system, use the formula: Amps = (kW x 1000) / (β3 x Volts). So, Amps = (10 x 1000) / (β3 x 220) = 26.18 amps per phase. Therefore, the total current drawn by the heater is 26.18 amps per phase multiplied by 3, which equals approximately 78.54 amps.
To convert from kilowatts (kW) to amps in a 3-phase system, we need to know the system voltage. Using the formula: Amps = (kW x 1000) / (β3 x Volts), where β3 is the square root of 3. Assuming a system voltage of 120/208V, the amperage would be approximately 135.1 amps.
On a 50 amp 3 phase connector, you can pull 50 amps per leg. This means that each of the three phases can carry up to 50 amps individually, resulting in a total capacity of 50 amps per leg.
it is either 3 aaa or 3 aa
3 AA batteries provide about 4.5 volts. The amps depend on the load but for D-cells a load of 10 amps can be sustained for short periods.
3000 milliamps is equal to 3 amps. To convert milliamps to amps, you divide by 1000.
It uses 2 amps
60 amps
106 amps
100 amps
Assuming that the terms, a and AA, are commutative, It is 1 + a^3 + (AA)^3 - 3aAA
1100 watts or about ten amps then another 3 to 4 amps for turn table light and fan
3
UK Mains is 230V therefore 6 KW is 6000/230 = 26 Amps. 3 phase is slightly different....... 6000/400V = 15 Amps/root 3 = 8.67 Amps per phase.
To calculate the amperage for a 10kW heater on a 3-phase 220V system, use the formula: Amps = (kW x 1000) / (β3 x Volts). So, Amps = (10 x 1000) / (β3 x 220) = 26.18 amps per phase. Therefore, the total current drawn by the heater is 26.18 amps per phase multiplied by 3, which equals approximately 78.54 amps.