Answer: The conductor’s resistance is affected by temperature, so the resistance value also does when the temperature rises. Temperature and conductor resistance are inversely related. The conductor’s resistance increases as its temperature rises. Temperature-related variations within the conductor’s resistivity increase resistance. As the conductor’s physical dimensions change, so does its resistance. Conductor resistance is inversely correlated with the area and inversely associated with length. So, a certain wire length and diameter correspond to a particular resistance value. Therefore, the conducting materials tend to become more resistant when the temperature rises. In contrast, the insulating material’s resistance drops as the temperature rises.