When you multiply amps x volts the product is watts. Using this formula W = Amps x Volts should give you your answer.
You need the volts times the amps to equal 100 Watts. On 12 v that is 8.33 amps, or on 200 v is it 0.5 amps.
Watts are amps x volts, so w/o the volts the question can't be answered. At 100 volts it'd be 15 amps.
No you cannot.
A #3 copper wire with an insulation factor 90 degree C is rated at 105 amps.
They will use the same amount of power. A 100 watt bulb will use 100 watts. If a bulb is rated at 100 watts and is specified as a 120 volt bulb, if you apply the 120 volts, it will draw 0.83 amps. Volts times amps equals watts. If you have a bulb rated at 100 watts and is specified as 12 volts, if you apply the 12 volts, it will draw 8.3 amps.
A three wire home distribution service rated at 100 amps has a wattage capacity of;From L1 to L2 at 240 volts x 100 amps = 24000 watts or 24 kilowatts. From L1 to neutral at 120 volts x 100 amps = 12000 watts or 12 kilowatts. From L2 to neutral at 120 volts x 100 amps = 12000 watts or 12 kilowatts.
You need the volts times the amps to equal 100 Watts. On 12 v that is 8.33 amps, or on 200 v is it 0.5 amps.
KVA means thousands (K) of volts (V) times Amperes (A). A 100 KVA transformer can deliver 1000 amps at 100 volts or 500 amps at 200 volts etc.
Watts=Volts times Amps So without knowing the voltage the amps can be anything. At 100 Volts it'd be 14 Amps.
a 1.5 kVa source of electrical power has the capacity to supply 100 volts at 15 amps, 300 volts at 5 amps, or 1000 volts at 1.5 amps.
Watts are amps x volts, so w/o the volts the question can't be answered. At 100 volts it'd be 15 amps.
No.
A #3 copper wire with an insulation factor 90 degree C is rated at 105 amps.
No you cannot.
No
They will use the same amount of power. A 100 watt bulb will use 100 watts. If a bulb is rated at 100 watts and is specified as a 120 volt bulb, if you apply the 120 volts, it will draw 0.83 amps. Volts times amps equals watts. If you have a bulb rated at 100 watts and is specified as 12 volts, if you apply the 12 volts, it will draw 8.3 amps.
As asked, the question cannot be answered. At 1 volt, 300 Watts = 300 Amps. At 10 volts, 300 Watts = 30 Amps. At 100 volts, 300 Watts = 3 Amps. At 120 volts, 300 Watts = 2.5 Amps. At 240 volts, 300 Watts = 1.25 Amps. To calculate the relationship between Amps, Volts and Watts, use the formula: Watts = Amps * volts