You have a major electrical problem.. If a breaker trips more than once you need to leave it off and call an electrican.
For a 2500 watt water heater operating at 120 volts, you would need a 20 amp breaker. This ensures the breaker can handle the load without tripping.
For a stove, use a 8 or 6 gauge wire with a 40 to 50 amp breaker. For a dryer, use a 10 or 8 gauge wire with a 30 amp breaker. For a hot water heater, use a 10 or 8 gauge wire with a 30 or 40 amp breaker. Be sure to consult local electrical codes and guidelines for specific requirements.
No, it is not safe to put a 20 amp water pump and a 30 amp water heater on a 50 amp breaker. The total amperage exceeds the capacity of the breaker, which can lead to overheating, tripping, or even a fire hazard. It is recommended to have separate dedicated circuits for each appliance to ensure safety and proper functionality.
To run a 500 watt 240 volt heater, you would need a 2.08 amp breaker. This can be calculated by dividing the wattage by the voltage (500W / 240V = 2.08A). You would typically round up to the nearest standard breaker size, which in this case would be a 3 amp breaker.
Current 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.
A 60A breaker will protect a very large conductor indeed, much larger than an ordinary household water heater would need. Many houses only have a single 60A main fuse!It would be pointless and dangerous to use a 60A breaker to protect an electrical cable (and appliance) rated for, say, 30 amps. So, you will need to find out the name-plate rating on the water heater before you burn something down.
The size of the circuit breaker for a 240V, 60Hz garage heater typically depends on the heater's wattage. A common rule of thumb is to choose a breaker rated at 125% of the heater's full load current. For example, if the heater is rated at 4,000 watts, the current draw would be approximately 16.7 amps, so a 20-amp circuit breaker would be appropriate. Always consult the manufacturer's specifications and local electrical codes for precise requirements.
The breaker size for a 10 KVA electric heater would depend on the voltage it operates at. For example, for a 240V heater, you would need a 41.67 Amp breaker (10,000 VA / 240V = 41.67 A). It is important to consult with a licensed electrician to ensure the correct breaker size and electrical setup for your specific heater.
Assuming this is standard house voltage of 120 VAC your 4500 Watt heater will draw about 37.5 amps. You would normally install a 50A breaker and would have to run 8 gauge wire.
If your having condensation at the bottom of the unit it could be that the bottom element has gone bad and when the cold water comes in and hits the warm tank it is condensating. Also if heating element has gone bad that could be a definite cause for the breaker to keep tripping.
A 15000 watt 240 volt heater would require a 62.5 amp circuit breaker. To accommodate this exact load, you would typically use the next standard breaker size above 62.5 amps, which is a 70 amp breaker to ensure safety and proper operation of the heater.
To calculate the breaker size for a 1500-watt 120-volt heater, use the formula: Breaker size = Power (Watts) / Volts. In this case, 1500 watts / 120 volts = 12.5 amps. Therefore, you would need a 15-amp breaker for a 1500-watt 120-volt heater to allow for a safety margin.