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Sir, i will not go by watts because it can take many hundreds of watts per outlet but it also depend on the size of the wire in the outlet the bigger the number the more watts.
A load of 1600 watts should be placed on a 20 amp 120 volt GFCI outlet.
A 30 amp circuit on a 250 volt service could handle up to 7500 watts. That's if it's actually 250 volts coming in. You should check that with your meter.
Because it is a 220 volt outlet instead of a 120 volt outlet. Now, if this is a standard 120 volt outlet that is reading 209 volts then someone has made a mistake in the wiring. You need to call an electrician to straighten this out.
One volt is zero watts.
Sir, i will not go by watts because it can take many hundreds of watts per outlet but it also depend on the size of the wire in the outlet the bigger the number the more watts.
Standard 120 volt 15 amp outlet. 300 watts is not a high current demand.
A load of 1600 watts should be placed on a 20 amp 120 volt GFCI outlet.
A 30 amp circuit on a 250 volt service could handle up to 7500 watts. That's if it's actually 250 volts coming in. You should check that with your meter.
Because it is a 220 volt outlet instead of a 120 volt outlet. Now, if this is a standard 120 volt outlet that is reading 209 volts then someone has made a mistake in the wiring. You need to call an electrician to straighten this out.
No, it will cause the bulb to blow. A 12 volt light is DC voltage and your home outlet is AC voltage.
One volt is zero watts.
Not sure about how many Watts your 36 volt charger uses, but you can find out by this formula... Volts X Amps = Watts.
On a 120 volt supply, up to 360 watts. On a 240 volt supply, up to 720 watts.
Volts * Amps = Watts 12 Volt * 2 amp = 24 Watts
770 watts.
4800 watts because watts = volts x amps.