15 amps out and 15 amps back... unless there is a ground fault, but if that's the case you should shut down the device anyway.
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The answer above applies to the U.S. and Canada for 120 volt load or for a European 240V load.
Note that in North America 240V it is different: For a US or Canada 240 volt load or a balanced three-phase load, there is no current flowing in the neutral.
It depends on the capacity of the circuit. A typical residential circuit in the US is rated for 15 or 20 amps.
A neutral pin is a conductor in an electrical outlet or socket that carries the current back to the power source. It is typically color-coded as black or blue in many countries and is an important component for completing the circuit in electrical systems.
A typical iron pulls around 9-12 amps when in use. It's important to check the specific amp requirement of your iron to ensure it matches the capacity of your electrical circuit.
1.9 amps
A 30 amp circuit can handle a maximum of 30 amps of current flow continuously without tripping the circuit breaker. It is important not to exceed this amperage to prevent overheating and potential fire hazards.
Twenty amps is zero watts. You are missing one value. W = Amps x Volts. <<>> It depends on the resistance and the draw current in the electrical circuit.
It depends on the capacity of the circuit. A typical residential circuit in the US is rated for 15 or 20 amps.
You don't. If you know how many Amperes in an electrical circuit and also what the total resistance in the circuit is, then EMF (Volts) = current (Amps) x resistance (in Ohms). EMF stands for Electromotive Force, and its unit of measure is the Volt.
A neutral pin is a conductor in an electrical outlet or socket that carries the current back to the power source. It is typically color-coded as black or blue in many countries and is an important component for completing the circuit in electrical systems.
A typical iron pulls around 9-12 amps when in use. It's important to check the specific amp requirement of your iron to ensure it matches the capacity of your electrical circuit.
What you are asking is kinda like asking how many oranges in an apple.Voltage is the measure of electrical potential.Amperage is the measure of electrical flow quantity.A good illustration is a water pipe: you can have high pressure (volts) but unless the water is allowed to flow the quantity of water is zero. (amps)
15 amps at 80% = 12 amps continuous. Watts = Amps x Volts.
Check the number of amps that your circuit can handle. You should not put devices with more than that many amps (total) on that circuit. Most houses are 15 amps and bathrooms 20 amps.
1.9 amps
12 amps of electricity.
If they are on the same circuit you only need 1 neutral wire in the circuit.
Fuse SizesThe Amperage ratings [sizing] of fuses [and circuit breakers] is determined by the SIZE of the conductors [wires] in the circuit which they serve.The size of the wires is determined by the maximum expected current [measured in Amperes (Amps) or Milliamps (mA] needed by the electrical devices "fed" by the circuit.Therefore, the answer to your question is that there are many different "size" fuses which range in Amperage from thousandths of an Amp to hundreds of Amps.