How does temperature affect electrical resistance?

The correct answer highlights the relationship between temperature and electrical resistance, particularly for conductors. In general, as the temperature of a conductor increases, the resistance also increases. This happens because higher temperatures cause the atoms within the conductor to vibrate more energetically. As these vibrations become more pronounced, the likelihood of collisions between electrons and the vibrating atoms increases, which impedes the flow of electric current and results in a higher resistance.

This phenomenon is most prominent in materials such as metals, where increased thermal energy disrupts the orderly flow of electrons. While some materials, like semiconductors, can exhibit different behaviors under certain conditions, the foundational principle remains that for most conducting materials, resistance will rise with temperature.

Understanding this concept is crucial in various applications, such as electrical engineering and electronics design, where temperature fluctuations can impact circuit performance and reliability.