Five amps is 600 watts on 120 v and 1200 watts on 240 v.
A typical domestic water heater uses 3 kW. On a European 230 v system it would use 13 amps.
On a 120 v supply 320 watts is 320/120 amps, or 2.667 amps. On a 240 v supply the current is 320/240 amps, or 1.333 amps.
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.
If you need 50 amps you can use a 60 amp generator or any other generator rated to supply more amps. The voltage, 110 v or 240 v, must be the right voltage for the load used.
Could be about 13 amps at 240 v.
A typical domestic water heater uses 3 kW. On a European 230 v system it would use 13 amps.
On a 120 v supply 320 watts is 320/120 amps, or 2.667 amps. On a 240 v supply the current is 320/240 amps, or 1.333 amps.
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.
If you need 50 amps you can use a 60 amp generator or any other generator rated to supply more amps. The voltage, 110 v or 240 v, must be the right voltage for the load used.
Could be about 13 amps at 240 v.
100 amps
There is no direct conversion between the two. You need to know voltage to calculate amps. This is the equation: P = V * I Where: P = Watts V = Volts I = Amps
On 120 v a kilowattt is 8.3 amps, on 240 v it's 4.15 amps.
yes and and no but you need to know how many amps the heater uses and how many amps the relay can with stand..
Use the formula A = W/V, where A is amps, W is watts and V is voltage.
This depends on the voltage ... amps = watts / volts 660 W / 110 V = 6 amps 660 W / 220 V = 3 amps 660 W / 330 KV = 2 mA
Depends on the voltage:P=VI where P is the power in Watts, V is voltage and I is current (amps).