To my knowledge there is no such a thing as a 1000 volt cooking microwave oven. If you mean 1000 watt then the answer to your question is yes. W = A x V. Presuming that the 15 amp receptacle is on a 120 volt system then the amperage draw on a 1000 watt microwave oven would be A = W/V 1000/120 = 8.3 amps with 6.6 amps to spare.
1100 watts or about ten amps then another 3 to 4 amps for turn table light and fan
A 1000 watt ballast operating at 120V would draw approximately 8.33 amps of current. This can be calculated by dividing the power (in watts) by the voltage (in volts).
1100 watts or about ten amps then another 3 to 4 amps for turn table light and fan
When the manufacturers refer to a 1000 watt oven they usually mean heat into food. The efficiency of ovens vary but it is quite common that a 1000 watt would consume 2000 watts from the mains. Watts = Amps X Volts so at 120V this would be 16.67 amps. But to be more accurate you need to find the actual input power of the oven.
As long as the voltages match a 60 amp service will handle a 700 watt microwave. The microwave will only draw A = W/V, A = 700/120 = 5.8 amps.
Your question answers itself... 1000 watts, when operated on a 480-volt source..
To calculate the amperage, you can use the formula: Amps = (kW × 1000) / (√3 × Volts). Plugging in the values, we get: Amps = (45 × 1000) / (√3 × 208) ≈ 131.1 amps. So, the hot water heater would draw approximately 131.1 amps.
Typically, a microwave oven between 700-1000 watts should be fine to use on a 15-amp circuit. For higher wattage microwaves, it's important to verify the amp draw on the appliance. Be cautious not to overload the circuit to prevent tripping the breaker.
To calculate the amperage for a 10kW heater on a 3-phase 220V system, use the formula: Amps = (kW x 1000) / (√3 x Volts). So, Amps = (10 x 1000) / (√3 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.
The amperage draw of an iron typically ranges from 5 to 15 amps, depending on its wattage and design. Most household irons operate between 1000 to 1800 watts, which translates to approximately 8 to 15 amps on a standard 120-volt circuit. Always check the manufacturer's specifications for the exact amperage of a specific model.
The kilowatt power draw of the electric furnace can be calculated using the formula: Power (kW) = Current (A) x Voltage (V) / 1000. Plugging in the values (20 A and 240 V) into the formula, we get: Power = 20 A x 240 V / 1000 = 4.8 kW. Therefore, the electric furnace has a power draw of 4.8 kilowatts.