Difficulty: Easy
Correct Answer: A conductor allows current to flow much easier than an insulator does
Explanation:
Introduction / Context:
Choosing wiring, substrates, and enclosures requires recognizing which materials conduct electricity and which resist it. The microscopic basis for conduction is the availability of mobile charge carriers (free electrons or holes) and the band structure of the material. This question asks for the practical, macroscopic distinction relevant to circuit design and safety.
Given Data / Assumptions:
Concept / Approach:
Metals have overlapping or partially filled bands, providing many free electrons, so resistivity is low and current flows readily. Insulators have a large band gap; at ordinary temperatures they lack sufficient carriers, leading to extremely high resistivity and negligible current. Semiconductors sit between these extremes, with carrier populations controllable via doping and temperature.
Step-by-Step Solution:
Identify the property that governs current flow: density and mobility of carriers.Conductor: high carrier density → low resistivity → easy current flow.Insulator: few carriers → high resistivity → difficult current flow.Select the option describing this practical difference.
Verification / Alternative check:
Compare resistivities: copper ~1.7e-8 Ω·m vs glass ~10^10–10^14 Ω·m. Orders of magnitude difference confirm that conductors allow far easier current flow than insulators.
Why Other Options Are Wrong:
B reverses the carrier picture; C contradicts material reality; D dismisses intrinsic properties—usage cannot turn an insulator into a conductor without altering conditions or structure. “None” is wrong because option A states the correct distinction.
Common Pitfalls:
Ignoring temperature dependence; assuming all nonmetals are perfect insulators; forgetting that moisture or contamination can reduce insulation resistance drastically.
Final Answer:
A conductor allows current to flow much easier than an insulator does
Discussion & Comments