A 1.5 mm wire is rated at 13 amps at 120 volts.
The earthing wire does not normally carry current.
The current carrying capacity of a cable depends on factors such as its material, size, and insulation. It is typically rated in amperes (A) and indicates the maximum current that the cable can safely carry without overheating. Exceeding this rating can pose a fire hazard or damage the cable.
No, thick wire can carry more current than thin wire because it has lower resistance. Thicker wires have more cross-sectional area, allowing electrons to flow more easily through the wire. This reduces the buildup of heat and minimizes the risk of overheating.
The minimum wire size for a 30Amp breaker is typically 10 AWG for copper wire and 8 AWG for aluminum wire, according to the National Electrical Code (NEC). This wire size is necessary to safely carry the amount of current without overheating.
The neutral wire does carry current in a closed AC circuit. Clamp a clamp on amp meter around the neutral wire directly after the circuit load and it will read the same current as is on the "hot" wire.
15mm approx.
The earthing wire does not normally carry current.
As with any electrical installation, the wire size used depends on the expected maximum current the wire will carry. That cannot be determined by voltage alone.
The gauge of wire you need for your project depends on the amount of current it will carry. Thicker wire has a lower gauge number and can carry more current. Consult a wire gauge chart to determine the appropriate size for your specific project.
Wire gauge is used to determine the size wire needed to carry the correct amount of current for the job. It must be sized appropriately for the current in the circuit you are building.
The wire size is large enough to carry the load current and that the cord is properly voltage rated.
The current caring capacity of a wire is based on the physical size of the wire. The larger the diameter of the wire the more amperage the wire is allowed to carry.
The inductance of a wire is directly related to the amount of current it can carry. Higher inductance in a wire can limit the amount of current it can carry, as it resists changes in current flow. This can lead to increased voltage drops and power losses in the wire.
The size of wire you need for your electrical project depends on the amount of current the circuit will carry. Consult the National Electrical Code (NEC) or a qualified electrician to determine the appropriate wire size for your specific project.
A wire derating chart provides information on how much current a wire can safely carry based on factors such as wire size, insulation type, and ambient temperature.
The current carrying capacity of a cable depends on factors such as its material, size, and insulation. It is typically rated in amperes (A) and indicates the maximum current that the cable can safely carry without overheating. Exceeding this rating can pose a fire hazard or damage the cable.
An electromagnet isn't designed to output any temperature. If it does that, then you can be sure that the size of wire from which it's wound is too small to safely carry the current it is carrying.