you divide the volts by the ohms
3 amps
Using Ohms Law, the answer is 120/0.5 = 240 Ohms.
Current (amps)=Watts/Volts =2000/120 =16.75 =16.75 amps
Typically single phase motors go up to 10hp. Wouldn't be very efficient at about 100 amps. A 20hp 3 phase motor at 230v pulls 52 amps. The 10hp single phase 230v pulls 50 amps.
Current equals Voltage divided by Resistance. 9/2=4.5 amps.
3 amps
Using Ohms Law, the answer is 120/0.5 = 240 Ohms.
Current (amps)=Watts/Volts =2000/120 =16.75 =16.75 amps
The current is 0.83 amps on 120 v or 0.42 amps on 240 v.
at 230v it will use 5 to 6 amps
5 amps. Use Ohm's Law: I = V/R = 90/18 = 5
The voltage tells you nothing about the current flow in amps, it's only the pressure sending current through a circuit. If a 11,000 volt supply is not connected to anything, the current is zero.
8
17amps
Since power = current x voltage, you would divide the power (watts) by the voltage. The answer would be 1/10 amps or .10 amps.
Typically single phase motors go up to 10hp. Wouldn't be very efficient at about 100 amps. A 20hp 3 phase motor at 230v pulls 52 amps. The 10hp single phase 230v pulls 50 amps.
The maximum current output of a CT is 5 amps. Connected to a meter this will be full scale. What ever the ratio of the CT will dictate the scale face on the meter. A 500 amp CT's output will be 5 amps at 500 amps on the buss. 250 amps on the buss, the CT will output 2.5 amp or half scale on the meter face.