BTU and kilowatt-hours are measures of energy, while power is measured in either kilowatts or BTU per hour.
1 kilowatt-hour is equal to 3412 BTU, or 1 kilowatt equals 3412 BTU/hr.
8000 BTU per hour is equal to 2.344 kilowatts, which is 19.53 amps at 120 v.
10 amps
It's watts divided by volts equals amps. Example: 1200 watts at 120 volts is 10 amps. To get the watts if you know the amps, multiply the amps times the volts. 10 amps at 120 volts is 1200 watts.
5.8 amps
Watts = Amps x Volts. Amps = Watts/Volts. 10000/120 = 83.3 amps can be used at 120 volts. On a generator that large it is most likely that it also has the capacity to produce 240 volts. 10000/240 = 41.6 amps can be used at 240 volts. What you can connect to the generator will be totals of the amperage of devices that do not go above these amp ratings.
in a home6000/120= 50 ampswatts/volts=amps
160 amps at 12v.
160 amps at 12v.
10 amps
5.8 amps
It's watts divided by volts equals amps. Example: 1200 watts at 120 volts is 10 amps. To get the watts if you know the amps, multiply the amps times the volts. 10 amps at 120 volts is 1200 watts.
Watts = Amps x Volts. Amps = Watts/Volts. 10000/120 = 83.3 amps can be used at 120 volts. On a generator that large it is most likely that it also has the capacity to produce 240 volts. 10000/240 = 41.6 amps can be used at 240 volts. What you can connect to the generator will be totals of the amperage of devices that do not go above these amp ratings.
in a home6000/120= 50 ampswatts/volts=amps
The formula you are looking for is I =W/E. Or Amps = Watts/Volts.
At 120 volts it will pull 4.166 amps. At 240 volts it will pull 2.08 amps.
The formula you are looking for is I = W/E. Amps = Watts/Volts.
It's not that simple. The basic formula is Volts / Ohms = Amps. For 30 Volts you'd get 0.5 Amps, for 60 Volts you'd get 1 Amp, for 120 Volts you'd get 2 Amps.
The formula you are looking for is I = W/E. Amps = Watts/Volts.