1000 watts at 9.5AMPS in 120 volt = 4.7 AMPS in 240 volt ..........Divide that by 2 according to the choice of voltage... 500 watts (120V) + 4.7Amp
On a 120 volt supply, up to 360 watts. On a 240 volt supply, up to 720 watts.
Watts = amps x volts. Something pulling 10 amps at 12 volts is 120 watts
Need to know the wattage to work out the amperage
Use the formula A = W/V, where A is amps, W is watts and V is voltage.
1000 watts at 9.5AMPS in 120 volt = 4.7 AMPS in 240 volt ..........Divide that by 2 according to the choice of voltage... 500 watts (120V) + 4.7Amp
On a 120 volt supply, up to 360 watts. On a 240 volt supply, up to 720 watts.
Watts = amps x volts. Something pulling 10 amps at 12 volts is 120 watts
Need to know the wattage to work out the amperage
Use the formula A = W/V, where A is amps, W is watts and V is voltage.
Current (amps)=Watts/Volts =2000/120 =16.75 =16.75 amps
No. 20 amps at 120 volts will handle a maximum of 2400 watts. And you should never continuously load a 20 amp 120 volt circuit to no more than 1920 watts.
That depends on circuit voltage. 1 watt is equal to 1 volt times 1 amp.
If your generator is rated at 1000 watts continuous......and you are using 120V.....available amps are 1000/120 =8.3 .
calculation for Watts is = volts X amps P=IE P= Power(WATTS) I = Current(AMPS) and E = Voltage(VOLTS). So: I = P/E and E = P/I therefore: 1 watt = 1 ampere x 1 volt If you havea 240 volt lamp that is drawing .5 amp then it is using 120 Watts
14 AWG wire normally supplies 15 amps. Watts = Volts x Amps x Power Factor. Power Factor has a maximum value of one. If you have a 120 volt circuit that would be 15 x 120 = 1800 watts or 1.8 KW. For a 240 volt circuit 3.6 KW.
Not a whole lot. Assuming that is 120 volt power, 1200 watts would be 10 amps. A standard breaker is 15 amps.