60watt devices like incandescent bulbs must be accounted for if you plan to install them on a circuit. One thing is to check how many amps is 60 watts. For DC circuits, 60 watts may be around 5 amps or
5kW to Amps Conversion. From our formulas follows that in order to get 5 kilowatts in amps we must know the voltage. Assumed the PF is 0.5, and supposed the voltage is 110 V, we get these result: DC: I = 1000 × 5 kW / 110 V = 45.45 A. AC, Single Phase: I = 1000 × 5 kW / (0.5 × 110 V) = 90.91 A.
8Amps to Watts Conversion. As can be concluded from the formulas, in order to convert the units the voltage must be known, too. Supposed the PF is 0.5, and assumed the voltage is 110 V, we obtain these result: DC: P = 8 A × 110 V = 880 W. AC, Single Phase: P = 8 A × 0.5 × 110 V AC2= 440 W. AC, Three Phase, Line to Line Voltage: AC2P = 8 A
AC Three Phase, Line to Line Voltage: AC2P = 16 A × √ 3 × 0.5 × 110 V = 1524.2 W; AC, Three Phase, Line to Neutral Voltage: P = 16 A × 3 × 0.5 × 110 V = 2640 W; In place of employing the formulas, utilize our amps to watts converter. Enter, for instance, 16 for the current in amps, and note that in any case your voltage in volts is
3000Watts to Amps Conversion. From our formulas follows that in order to convert 3000 watts in amps we must know the voltage. Assumed the PF is 0.5, and supposed the voltage is 110 V, we get these result: DC: I = 3000 W / 110 V = 27.27 A. AC, Single Phase: I = 3000 W / (0.5 × 110 V) = 54.55 A. AC, Three Phase, Line to Line Voltage: I = 3000 W
115 Amps to Watts Conversion. As can be concluded from the formulas, in order to convert the units the voltage must be known, too. Supposed the PF is 0.5, and assumed the voltage is 110 V, we obtain these result: DC: P = 11.5 A × 110 V = 1265 W. AC, Single Phase: P = 11.5 A × 0.5 × 110 V AC2= 632.5 W. AC, Three Phase, Line to Line Voltage
. 67 209 94 385 384 98 191 105 172
5 volts 3 amps to watts
