No, a good conductor has a low resistance.
Dry wood has a high resistance; wet or humid wood is a fairly good conductor.
hey how are you I think is Gold do you agree with me
Traditionally, a conductor has the least resistance of the three, followed by the semiconductor and finally the resistor.
Good conductors have low resistance
high conductivity
tungsten
Gold has a low resistance, which means it is a good conductor of electricity. This property makes it useful in various electrical applications where low resistance is needed for efficient conduction of electricity.
Good conductor = low resistance.
It has high resistance.
resistance will be high
The resistance of a conductor is relatively low while an insulator should have very high resistance. The former is used to transmit electricity and the latter is designed to inhibit flow of electricity.
No, it has high specific resistance. But not an insulator. Due to high specific resistance it gets heated as current flows through it. So it is used in heating elements of heating electrical gadgets. The most advantage of Ni-Cr alloy is that it is not easily oxidised.
A good example of electrical resistance is the heating element on a stove top it is a very poor conductor (high electrical resistance) because it is a poor conductor the electrical energy is converted to heat. Glass is one of the best insulators because its electrical resistance is so high it is a non conductor this lets us use it on high power lines to keep the electricity from coming in contact with the ground.
Dry wood has a high resistance; wet or humid wood is a fairly good conductor.
Cable faults are normally categorised as (a) conductor-to-earth (ground) faults, (b) conductor-to-conductor faults, and (c) conductor-to-conductor-to earth (ground) faults. In addition to that, we can categorise them by whether they are 'high-resistance' or 'low-resistance' faults.
Something that conducts electricity with little resistance. one really good conductor is metal.
they are used to reduce the resistivity,owing to the fact that the conductor introduces current into the resistance