1) What materials the conductor is made of;
2) the average cross-sectional area along the length of the conductor;
3) the temperature of a conductor also affects its resistance;
4) the length of the conductor is also very important.
Generally, the longer the conductor, the higher its resistance.
Your students' course materials can probably give you a better answer than mine, or at least you'll know it is the right one.
The resistance can be changed in following two ways: 1.By change the length of the wire. 2.By changing the area of cross section of the wire.
The resistance of the wire is directly proportional to the length and inversely proportional to the area of cross section. Also it depends on the material of the wire with which it is made. So three factors. Length, area of cross section, material.
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These factors include pH, temperature, oxidation and the presence of metal ions.
The resistance can be changed in following two ways: 1.By change the length of the wire. 2.By changing the area of cross section of the wire.
The easiest way is by using an FET
Thanks to the property that a conductor's resistance is influenced by temperature (mainly, it increases accordingly). This property is specifically extended in materials used to construct such diodes. It is important to remember that silicon does not a semiconductor device make. It takes layers of semiconducting material (with the occasional isolator) and impurities specifically included into the mix to alter the device's behavior.
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