When you talk of the capacity of a service you are talking about the capacity of the equipment to handle a certain amperage. A 400 amp service has to have all of its equipment to be rated to handle 400 amps. The maximum capacity of the service will be what the service is protected at, be it with fused or breakers. If the fuses of the main breaker were 300 amp rated then the maximum capacity of the service would be 300 amp even though the equipment is rated at 400 amps. The service capacity is governed by the fusing that is protecting the service.
200 amp maximum combined.
15 and 20 amps for receptacles and lights, and anywhere from 20 to 60 amps for dedicated loads such as water heaters and air conditioning. The fuse size MUST be matched to the load and wire size, you cannot just arbitrarily pick one!
There isn't a formula, but the general rule is that you allow for 1 amp per outlet and you load the circuit to 80% of maximum. For a 15 Amp circuit you can have a maximum of 12 outlets.
Yes you can. That being said the different wire size that is to be used can not have a smaller current capacity than the breaker that is supplying that circuit. In other words the wire size that is added to the circuit has to be larger not smaller. For example a 20 amp breaker can have a #12 at 20 amp rating, #10 at 30 amp rating or a #8 at 40 amp rating added to the circuit but not a #14 which is only rated at 15 amps. Using 15 amp wire on a 20 amp breaker could overload the capacity of the #14 wire which is rated for a maximum of 15 amps.
When you talk of the capacity of a service you are talking about the capacity of the equipment to handle a certain amperage. A 400 amp service has to have all of its equipment to be rated to handle 400 amps. The maximum capacity of the service will be what the service is protected at, be it with fused or breakers. If the fuses of the main breaker were 300 amp rated then the maximum capacity of the service would be 300 amp even though the equipment is rated at 400 amps. The service capacity is governed by the fusing that is protecting the service.
No, that's just the maximum capacity of the speakers. You can always run them at less than their maximum rating.
200 amp maximum combined.
15 and 20 amps for receptacles and lights, and anywhere from 20 to 60 amps for dedicated loads such as water heaters and air conditioning. The fuse size MUST be matched to the load and wire size, you cannot just arbitrarily pick one!
Maximum Capacity was born on 1968-08-02.
As of 2011 the maximum capacity of a computer is 64 bit.
Not a good idea. The 15 amp fuse will be protection a #14 wire which is rated for 15 amps maximum capacity. By changing the 15 amp fuse to a 30 amp fuse you would then be allowing 30 amps maximum capacity on a #14 wire. By doubling the load the extra heat generated on the smaller wire could be enough to melt the insulation from the wire and that could cause the wire to short out. If the wire shorts out inside the wall it means the removal of the wall board to replace the wire to restore the circuit to an operational condition. The proper wire sizing for a 30 amp fuse is, #10 copper wire with an insulation rating of 90 degrees C.
Yes, the 20 amp capacity is the maximum amount of amperage that is recommended to be drawn off of that rail.
The maximum zoom capacity in Microsoft Word 2003is 500%.
No more than 13 maximum on a 20 amp circuit.
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