all metals are metallic bonding. use any one of them all metals are metallic bonding. use any one of them
no there will be no any affect on resistance of wire, when it bends
Visually inspect the wire at the short contact point. If there is no copper loss and the wire was not reduced (big crater hole) where the contact was made you are OK. If there was copper loss then cut the wire back to where the conductor is good and reconnect the dryer. There should be no damage to the dryer if it was not turned on. The breaker tripping was doing its job of protecting the wire from the over current.
It can't be just any metal - it has to be iron. If you wrap a copper wire around iron, and the copper wire is attached to an electricity source, you can create an electromagnet.
In any NEC code book
Nichrome wire has such high resistance that it is used to convert electrical energy into heat. Many heating elements are made from nichrome. Copper wire has the best conductivity, for the price, of any metal.
No, copper wire cannot be used to make the filament of an electric bulb as copper wire has very low resistance. Therefore, the bulb will not glow if current is passed. It would also melt - the filament has to be white-hot to be any use!
#14 copper wire is rated at 15 amps, # 12 copper is rated at 20. The maximum capacity of any wire is 80% so remember to derate your current by multiplying the rated current by .8
Almost any kind of wire, copper wire being most used.
No, number one copper is used in buss bars. "Number one copper" is a term I am familiar with from recycling copper. It does indeed include buss bars, but also includes any solid wire whose insulation has been removed, or large gauge wire with large strands (as opposed to small gauge stranded wire) whose insulation has been removed. -- Sparkfighter
A copper wire by itself won't generate any electricity at all. You'll need to have a length or a loop of it moving through/surronded by a magnetic field before you can get a voltage out of it.
Copper loss means the loss due to the resistance of conductor of any device. Core loss means the loss due to eddy current and hysterisis of flux. So the total loss of a transformer menas copper loss+core loss. Therefore just knowing the core loss the copper loss can not be deduced. These are being two different and not interrelated losses the value of one of them will not make way to find the other. I hope the answer is clear enough otherwise please write again