55 wpc
The answer in watts is 460 times 5.
2300 watt-hours for every hour it operates. Watts x Hours = watt hours.
Assuming we are talking about 2300 BTU per hour, take 2300 and divide by the number of BTUs per watt-hour, 3.414, giving 673 watts. Then divide this by the voltage, 240, giving 2.81 amps.
Watts = Amps x Volts Amps = Watts / Volts you only need to know two of the three to work out the other so 230 volts at 10 amps gives 2300 Watts (2.3 kW) 2.3kW at 230 volts draws 10 Amps
Watts = Volts x Amps x Power Factor Maximum Power Factor is 1 for resistive load.
The answer in watts is 460 times 5.
2300 watt-hours for every hour it operates. Watts x Hours = watt hours.
Assuming we are talking about 2300 BTU per hour, take 2300 and divide by the number of BTUs per watt-hour, 3.414, giving 673 watts. Then divide this by the voltage, 240, giving 2.81 amps.
Watts = Amps x Volts Amps = Watts / Volts you only need to know two of the three to work out the other so 230 volts at 10 amps gives 2300 Watts (2.3 kW) 2.3kW at 230 volts draws 10 Amps
2300
Watts = Volts x Amps x Power Factor Maximum Power Factor is 1 for resistive load.
20% of 2300= 20% * 2300= 0.2 * 2300= 460
2300
2300
It is: 2300
there is no limit look at your circuit breaker it will say example my single pole breakers are 20 amps which according to OHM's law says that is equal to a maximum of 2300 watts (Voltage X Current = Power)
There are zero amps in 1000 watts. Watts are the product of amps x volts or I = W/E, watts divided by voltage. As you can see, that if no voltage is stated no amperage can be given. Once you find the voltage of the heater then use the following equation, Amps = Watts/Volts to find the current draw of the 1000 watt heater.