Given: In a metallic conductor, free electrons are under an applied electric field.
Find: The correct description of the motion of free electrons.
Free electrons in a metallic conductor are already in random thermal motion. When an electric field is applied, each electron experiences force opposite to the field because the electron is negatively charged.
Due to repeated collisions with atoms of the conductor, the direction of velocity keeps changing between successive collisions. Therefore, electrons do not move with uniform velocity and do not follow straight-line paths throughout.
Their resultant motion is a slow drift toward the positive end, that is, from lower potential to higher potential, but the actual paths are curved because of continuous collisions.
Therefore, the free electrons move along curved paths from lower potential to higher potential. The solution text states this physically, but it also labels the correct option as D. Since the listed option D says "Drift from higher potential to lower potential," that label conflicts with the explanation. By the answer-resolution rule, the solution working is primary, so the most defensible mapped answer is D with a provided discrepancy noted.