Cross section area =60x10=600Sqmm
For copper we can utilised 2 amps per sqmm
hence we can load upto 1200 amps easily.
The wire size depends on how much current it will conduct.
Yes, as the wire size physically becomes larger so doesits capacity to handle a larger current.
The following sizes of bus-bar will have the capacity to handle 1000 amps, 3/16 x 4", 1/4 x 3 1/2", 3/8 x 2 1/2", and 1/2 x 2".
There are different combination to obtain a current capacity of 1250 amps. A parallel run of #1250 MCM wires. A triple run of #600 MCM wire. The most flexible run would be with a quad run of #350 MCM wire.
No, the resistance of a copper conductor does not vary according to applied voltage. It is constant for a given wire size, and only varies with temperature. Of course, current through a conductor causes it to heat, so current, not voltage, indirectlycauses a change in resistance.
To answer a current carrying capacity question the size of the wire has to be stated.
The S curve represents the result of environmental resistance. The research compares the population size to the time in which it took for environment to be effected.
Unlimited, the more matter that the earth has, the greater the earths gravitational force, which in turn pulls more matter inwards. If the earth got hundreds of thousands of times the size it is now, then einstiens theory of relativity dictates that if an object is compressed enough, it will collapse into a black hole, thus if the gravitational force became to great, the earth would collapse into a black hole.
The wire overheats. In a bad case, a fire can be started. Note that, sometimes, current capacity is actually more a factor of insulation capacity rather than wire size.
876 A @ 85Deg.C
The wire size depends on how much current it will conduct.
Current Capacity of a conductor depends on may things, and not only its size and material. Also important are the conditions in which it will be used, the allowable temperature increase and acceptable voltage drop. Measuring the current carrying capacity would involve measuring all those variables under load.
It depends on some factors which are not mentioned in the question. The main difference between 100% copper wire and copper clad aluminum is that IF they are the same diameter, then the copper will carry and stand up to more electrical current than the aluminum. If the diameter of the aluminum cables have been upgraded in size, to match the current carrying capacity of the normal copper cables, then the only remaining difference is that copper withstands much more bending and coiling beforethe metal begins to "work harden," and some of the individual wire strands begin to break. In other words, the copper stands up to use better than aluminum. When buying booster cables, read the lables, and make sure that the maximum number of Amps, for which the aluminum cables are capable of carrying, is equal to or greater than the highest rated copper cables. Therefore, IF the copper clad aluminum cables are rated for the same current carrying capacity as copper cables, then there is NO difference in use between the two types.
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 ground wire size is determined from the current carrying capacity of the motor feeders.
Yes, as the wire size physically becomes larger so doesits capacity to handle a larger current.
what is the current carrying capasity of 16mm cable