10 amps
If you mean 2/0 copper wire it is rated 175 amps. # 2 wire is 115 amps. If you are referring to 2.0 metric it is rated 15 amps.
AWG #10 copper on a 30 amp breaker.
It will taken 8 amps <<>> The conversion of 2.5 sq mm wire to AWG is equal to a #12 wire. The ampacity of a #12 copper wire with an insulation factor of 90 degrees C is 20 amps.
A #8 copper wire with an insulation factor of 75 or 90 degrees C is rated at 45 amps.
The amps that a four gauge wire will handle will depend with the thickness of the wire. If the wire is thin, the four gauge will handle 95 amps.
A#18 copper conductor with an insulation factor of 90 degrees C is rated at 6 amps.
10 amps
To determine how many amps a battery can handle, this information should be on the battery itself. You can also get a battery tester to determine amperage.
A 14-gauge wire can typically carry up to 15 amps of current, while a 12-gauge wire can handle up to 20 amps. It's important to follow the manufacturer's guidelines and electrical codes when determining the maximum current for a specific wire size.
A zero gauge wire can typically handle up to 300 amps of current. However, the exact capacity may vary depending on the specific wire material and insulation used in the wire. It is important to consult the manufacturer's specifications for the wire you are using to determine the exact ampacity.
According to the National Electrical Code (NEC), the ampacity of a 4 AWG THHN copper wire at 75°C is 85 amps, and 95 amps at 90°C.
CEC - #2 copper, RW90 insulation, 120 amps. #2 aluminium, RW90 insulation, 95 amps. he is not talking about Amplifiers. he is talking about amperes, the unit of measure that indicates how much electricity can flow through a wire. and it depends on the length of the wire, but 2 gauge wire will handle about 208 amps. depends on how big the amps are
A wire is not like a bucket that holds amps but more like a pipe that lets the amperage flow through it. A # 14 wire is rated at 15 amps. Code only allows up to 80% for continuous use, 15 x .8 = 12 amps.
That depends on how much current (Amps) is flowing through the copper. The voltage you lose in the copper will always be (A) times (R). 'A' is the current (amps) in the copper. 'R' is the resistance of the copper. You can look that up in a product catalog, or measure it with a really good ohm-meter.
A 2/0 copper conductor with an insulation rating of75 and 90 degrees Care rated at 175 and 185 amps respectively.
If you mean 2/0 copper wire it is rated 175 amps. # 2 wire is 115 amps. If you are referring to 2.0 metric it is rated 15 amps.