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A typical domestic water heater uses 3 kW. On a European 230 v system it would use 13 amps.
The GE water heater SE50M12AA01 is a 5500 watts or 5.5 Kilowatts water tank. The amperage on such a tank is I = W/E. Amps = Watts/Volts. Since most hot water tanks in North America use a voltage of 240, the amps will be 22.9 amps. It must be fed with a #10 conductor from a 30 amp breaker.
The heater should have a wattage rating (very few list amps). Calculate the amps using the wattage and voltage. Amps = Watts/Volts(480).
To answer this question the wattage of the block heater must be stated. Amps = Watts/Volts.
To calculate the amperage for a 240-volt, 1500-watt electric baseboard heater, you can use the formula: Amps = Watts / Volts. For this heater, it would be 1500 watts / 240 volts, which equals 6.25 amps. Therefore, the heater uses approximately 6.25 amps.
Current (Amps) = Power (Watt)/Voltage (V) Therefore a 4500W heating element will draw 18.75A = 4500W/240V
First you need to find out how many amps the heater draws. Then use this formula: Volts (220) X Amps = Watts Then take: Watts x 3.41214 = Btu/hr
To determine the amperage draw of a 5200 BTU heater, you can use the formula: Amps = BTUs / (Voltage x Efficiency). For example, if the heater operates at 120 volts and has an efficiency of about 100%, it would pull approximately 43.3 amps (5200 BTU / 120 volts). However, many small heaters operate at lower voltages (like 120V), so it's essential to check the specific heater's specifications for accurate amperage.
To answer this question the voltage of the immersion heater is needed. I = W/E.
To answer this question the voltage of the heater must be given. I = W/E.
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.