i personally would run a 10awg wire for anything more than a few feet from the panelboard. when i wire i use some simple calculation to figure out wire size. First Watts(2000) divided by Volts(120) gives you amperage(16.6666). Once you know amperage you can figure out wire size. when figuring out wire size remember that you never want to load over 80% of the wire capacity so 14awg is 15amps but you only load to 12 amps. 12 awg is 20 amps so loaded to 80% would be 16 amps. and 10 awg is 30 amps so loaded to 80% is 24amps. so like I sadi for that circuit unless it is right near the panel i would run 10 awg and probably fuse it at 20 amps.
2000watts/120Volts=16.66666Amps So your miniumum gauge would be 17
14 awg
The minimum size home wiring is #14 AWG, the rating for that size wire is 15 amps.
The minimum size home wiring is #14 AWG, the rating for that size wire is 15 amps.
Low energy applications can be smaller than the 14 AWG branch wiring. Examples of this are the wiring for door bells, thermostats, intercoms and communications.
20 amperes.
14 awg
14 awg
The minimum size home wiring is #14 AWG, the rating for that size wire is 15 amps.
A multiwire branch circuit is consist`of two or more ungrouded conductors that has voltage between them and has a grounded conductor that is eoual voltage between each conductor connect to the neutral and it,s ground
The minimum size home wiring is #14 AWG, the rating for that size wire is 15 amps.
Low energy applications can be smaller than the 14 AWG branch wiring. Examples of this are the wiring for door bells, thermostats, intercoms and communications.
20 amperes.
In a DC circuit, it's the branch with the largest resistance. In an AC circuit, it's the branch with the largest magnitude of impedance.
The resistance of the component on that branch of the circuit, if the resistance is higher less of a proportion of the total current of the circuit will travel through that branch, however, if the resistance is low a higher proportion of the current will travel through that branch of the circuit. The voltage through each branch stays the same.
The resistance of the component on that branch of the circuit, if the resistance is higher less of a proportion of the total current of the circuit will travel through that branch, however, if the resistance is low a higher proportion of the current will travel through that branch of the circuit. The voltage through each branch stays the same.
An ammeter reads the current that is flowing through a branch of a circuit. If there is a break within that same branch of the circuit, current will not be able to flow through that branch of the circuit as it forms an incomplete loop, so the ammeter will read 0 A of current. If there is a break in a circuit in a branch that is not connected to the ammeter however, the ammeter will give a higher reading of the current. This is assuming that the break in the other branch does not short out the branch with the ammeter attached, and that the circuit can still form a complete loop without that branch.
A parallel circuit is an electrical circuit that has more than one current branch.