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On what factors do the resistance of cinducter depend |
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Answer» ◇On its length◇ On its area of cross section◇ On the nature of the material 1. Length of conductor: The resistance\xa0(R)\xa0of a conductor is directly proportional to its length\xa0(l).R∝lIf we increase the length of a conductor, its resistance increases since only less amount of current can pass through it. If we reduce the length of a conductor, the resistance decreases since more current can pass through it.2. Area of cross-section: Area of the cross-section is inversely proportional to the resistance.R∝1 / AIf we double the area of cross-section, the resistance will be half. So, electricity can. That\'s why we are using thick wires for the heavy electrical loads.3. Nature of material: Conductors offer less resistance compared to insulators. That’s why we are using plastic materials for electrical insulation purposes like switches, coatings etc.Effect of temperature: Resistance of pure metals are showing a direct relationship with temperature. But generally, alloys like nichrome won’t show that much change in resistance with respect to the temperature. The resistance of semiconductors decreases with increasing temperature.From these conclusions, we can conclude that,R∝l / AThe proportionality constant is known as resistivity\xa0(ρ).R=ρ l / AResistivity is a measurable property that quantifies how strongly a given material opposes the electric current flow. It depends upon the dimension of the material. It is also known as specific electrical resistance. It is inverse to conductivity. Its unit is\xa0ΩIf we are considering unit measurements, we can say that; the electrical resistivity of a material is the resistance of the material per unit length and per unit cross-sectional area at a specified temperature.\xa0 Can you explain them?? A n s w e r:The resistance of the conductor depends on the following factors:\tThe temperature of the conductor\tThe cross-sectional area of the conductor\tLength of the conductor\tNature of the material of the conductor |
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