What does N represent in chromatography and how is the height of a theoretical plate defined?

• A. N represents the number of equilibrium stages; H = L/N.
• B. N is the number of plates in the column; H = L/N^2.
• C. N represents the mobile-phase volume; H = V/mass.
• D. N is the ratio of mobile to stationary phase; H = L*N.

Answer: (A)

In chromatography, N is the number of theoretical plates (equilibrium stages) along the column. The height of a theoretical plate, H, is defined as H = L / N, where L is the column length. This relationship shows why more equilibrium stages for a fixed column length lead to greater efficiency: increasing N decreases H, producing sharper peaks and better separation. The statement that N represents the number of theoretical plates and H = L / N matches this concept. The other options mix up what N denotes or give an incorrect formula for H, so they don’t fit the standard plate model. In practice, N is tied to how well the column promotes equilibrium between phases, with higher N reflecting a more efficient column and typically resulting in narrower peaks.