Wiki User
∙ 7y agoCurrent in amps = watts/ voltage in volts.
If you have a 240 volt supply, it will draw 4800/240 = 20 amps, so no.
This is a very powerful water heater, and would normally be wired into a dedicated circuit, presumably with a 30 amp breaker.
Wiki User
∙ 7y agoYes, a 30 amp double pole breaker would be suitable for a 4800 watt wall heater. Since watts equals volts multiplied by amps, this wall heater on a 240-volt circuit would draw 20 amps (4800 watts/240 volts), which is less than the 30 amp capacity of the breaker.
To determine the hydro usage of a 4800-watt heater, you would need to know the length of time the heater is running. For example, if the heater runs for 1 hour, it would use 4.8 kWh (4800 watts x 1 hour = 4800 watt-hours = 4.8 kWh) of electricity. You can calculate the usage by multiplying the wattage of the heater by the number of hours it is in operation.
For a 220V electric water heater, you typically need a circuit breaker with a size of 30 amps. This will provide enough power to efficiently operate the water heater without risking electrical overloads. Be sure to consult a licensed electrician to ensure proper installation and safety.
If you are using typical residential voltages ( 120v/240v) a 40 amp breaker is plenty big enough. You could even use a twenty amp breaker.
The formulae for calculating watts to amps is Watts divided by Voltage. Therefore to get from Amps to Watts the calculation is Amps × Voltage. Therefore if you are working on a 240 volt supply the calculation is 20 (Amps) × 240 (Volts) which = 4800 watts.
Yes, a 30 amp double pole breaker would be suitable for a 4800 watt wall heater. Since watts equals volts multiplied by amps, this wall heater on a 240-volt circuit would draw 20 amps (4800 watts/240 volts), which is less than the 30 amp capacity of the breaker.
A typical home hot water heater uses 4800 watts. The circuitry connecting to the tanks is a 20 amp breaker with #12 wire for the connection. The tank draws 20 amps. W = A x V = 20 x 240 = 4800 watts. Some industrial hot water tanks can be rated at four times the size of home tanks.
To determine the hydro usage of a 4800-watt heater, you would need to know the length of time the heater is running. For example, if the heater runs for 1 hour, it would use 4.8 kWh (4800 watts x 1 hour = 4800 watt-hours = 4.8 kWh) of electricity. You can calculate the usage by multiplying the wattage of the heater by the number of hours it is in operation.
For a 220V electric water heater, you typically need a circuit breaker with a size of 30 amps. This will provide enough power to efficiently operate the water heater without risking electrical overloads. Be sure to consult a licensed electrician to ensure proper installation and safety.
If you are using typical residential voltages ( 120v/240v) a 40 amp breaker is plenty big enough. You could even use a twenty amp breaker.
This will pull 20 Amps continuous so you will need a 30 A breaker and 10 AWG wire. You would have Black, Red, White and Ground. The 240 V would be on the black and red connected to the output from a two pole 240 A breaker. White would be neutral and green or bare wire would be ground.
Yes but you will not get the full watt rating out of the tank. Watts = amps x volts. Say the tank draws 20 amps. 20A x 240V = 4800 watts. 20A x 208V = 4160 watts. It will take longer to heat your water with less wattage.
about 4800 watt but should not use it 100% so to be safe 4000 watt (80%)
The formulae for calculating watts to amps is Watts divided by Voltage. Therefore to get from Amps to Watts the calculation is Amps × Voltage. Therefore if you are working on a 240 volt supply the calculation is 20 (Amps) × 240 (Volts) which = 4800 watts.
i have to drain out 4800 cusec of water
5.5% of 4800= 5.5% * 4800= 0.055 * 4800= 264
4800