Typically either 15 A or 20 A. You can be sure by checking the breaker value in the electric panel that controls the outlet. If it were a 20 A breaker then the total amps for all outlets on the breaker would be 20A. usually you don't want to exceed 80% of rated current so in reality for a 20 A breaker you would have a 16 A capacity.
You can plug in 13amp to an outlet . You can use 16 to 32amp on multiple outlets maximum depending on the fuse at fusebox
Assuming a household voltage of 120 volts and a power factor of about .8 for the fan motor we have watts = volts x amps x PF. Amps = 90 / (.8 x 120) = 3 / 3.2 = .94 amps
Electric current can be either direct or alternating. ... Current density can also be expressed in amperes. Depending where you live will depending on what the voltage is and the carried amps. In the U.S., a conventional 120 V outlet is rated for a maximum current of 15 A, and the upstream wiring and circuit breaker should be designed to tolerate that. In the UK: The maximum current that can be drawn from a single UK socket is 13 amps (13A) and the maximum that can be drawn from all the sockets on a single ring-main together is 32A.
The normal current capacity of 12 AWG copper wire is 20 amps.
Watts = Amps x Volts x Power Factor If you are talking about a light bulb or similar 60 watt device at 120 VAC the answer is 1/2 amp using standard household voltage and a power factor of 1.
Assuming that the extension cord is plugged into a normal household receptacle rated at 15 amps the cord will handle 15A x 120V = 1800 watts. If the cord is of any length, at that wattage, you will feel the cord start to get warm like a heating cable.
the normal shock for human being is 250-300mA.
Amount of electric current flowing through the vacuum. Watts: Amps multiplied by the power voltage drawn. Most upright cleaners are 7 to 12 amps. Many canister models are 12 amps. The maximum allowable amps that can be plugged into a household outlet is 12 amps.
Assuming a household voltage of 120 volts and a power factor of about .8 for the fan motor we have watts = volts x amps x PF. Amps = 90 / (.8 x 120) = 3 / 3.2 = .94 amps
Electric current can be either direct or alternating. ... Current density can also be expressed in amperes. Depending where you live will depending on what the voltage is and the carried amps. In the U.S., a conventional 120 V outlet is rated for a maximum current of 15 A, and the upstream wiring and circuit breaker should be designed to tolerate that. In the UK: The maximum current that can be drawn from a single UK socket is 13 amps (13A) and the maximum that can be drawn from all the sockets on a single ring-main together is 32A.
The normal current capacity of 12 AWG copper wire is 20 amps.
you must divide the 1000 watt vacuum by its volts to get amps. Example: if a 1000 watt vacuum has 120volts then the vacuum gets about 8.3 amps. volts x amps = watts or watts / volts = amps
"Volts" is electrical pressure applied to a circuit; whereas, "ohms" is electrical resistance to that pressure. One cannot determine ohms from voltage without knowing either the current (in "amps") or power (in "watts"). A normal 120V household circuit can handle a maximum of 20 amps, so using ohm's law of resistance = voltage / current, the minimum resistance required in a 120V household circuit would be 6 ohms. Any less than 6 ohms will cause the circuit breaker to trip.
12/2 wire with a 20 amp breaker for normal home wiring.
I have a single phase induction motor. It draws 8 amps on start up and climbs to 14-15 amps when I put a load on it. When I don't have a load it runs at 1 and climbs to 2-3 amps. It is normal operation for this motor to run at the lower number of amps with a load. But I don't know what is wrong.
Watts = Amps x Volts x Power Factor If you are talking about a light bulb or similar 60 watt device at 120 VAC the answer is 1/2 amp using standard household voltage and a power factor of 1.
Assuming that the extension cord is plugged into a normal household receptacle rated at 15 amps the cord will handle 15A x 120V = 1800 watts. If the cord is of any length, at that wattage, you will feel the cord start to get warm like a heating cable.
Multiply the vots by the amps to find the volt-amps. Or divide the volt-amps by the voltage to find the amps.