A 16mm² cable can typically carry a current of around 70 to 100 amps, depending on factors such as the installation conditions, ambient temperature, and insulation type. In general, for standard insulated copper cables, a common rule of thumb is to assume about 1 amp per mm² for continuous loads. Always consult local electrical codes and regulations for specific applications.
5 amps
Multiply the vots by the amps to find the volt-amps. Or divide the volt-amps by the voltage to find the amps.
500 KVA how many amps? almost 650 Amps according to formula.
.106 kA = 106 amps.
140 AMPS
5 amps
6mm2 cable is rated at 40amps
44.8AMPS
101 amps for chassis wiring and 37 amps for power transmission. This is for short lengths of wire.
The maximum current that a 95mm cable can take would depend on the specific type or rating of the cable. Typically, a 95mm cable can handle currents ranging from 300 to 400 amps. It's important to consult the manufacturer's specifications or a qualified electrician to determine the exact ampacity rating for the specific cable in use.
It varies depending on the size and type of cable car. Typically, a standard cable car can hold between 20 to 30 passengers.
The normal current capacity of 12 AWG copper wire is 20 amps.
The ampacity of an electrical cable depends on several factors, including the cable's cross-sectional area (in mm²), insulation type, installation conditions, and ambient temperature. As a general rule of thumb, copper cables can carry approximately 10 amps per mm² for low-voltage applications. For example, a 1.5 mm² copper cable typically carries around 10-16 amps, while a 2.5 mm² cable can carry approximately 16-25 amps. Always consult local electrical codes and standards for specific applications.
124.3 amps. If you have one on a vehicle, for example a winch, use no less tha 00g cable. That is a LOT of power, and an ordinary alternator can't handle that.
To determine how many cables are needed, we need to know the maximum allowable amperage each T-9 cable can handle. Once we have this information, we can divide the total amperage needed (1600A) by the maximum allowable amperage of the T-9 cable to find out how many cables are required to supply the ship with 1600 amps.
The current carrying capacity of a cable can depend on factors such as the material, insulation, and installation method. For a rough estimate, a 125 mm2 cable can typically carry around 200-250 amps for standard copper conductors in common installation conditions. It is advisable to consult local electrical codes and standards, as well as a qualified electrician, for precise calculations.
A number six wire, also known as 6 AWG wire, can typically hold around 55-65 amps of current, depending on the insulation type and installation conditions. It is important to follow local electrical codes and consult with a qualified electrician to ensure proper sizing and safety.