State the van Deemter equation and briefly describe each term.

• A. H = A*B*u*C; not correct
• B. H = A + B/u + C*u; A = Eddy diffusion, B/u = longitudinal diffusion, C*u = mass transfer resistance; H is the plate height.
• C. H = A - B/u - C*u
• D. H = A + D/u + E*u

Answer: (B)

The van Deemter relationship shows how column efficiency, expressed as plate height, depends on how fast the mobile phase moves. The correct form is H = A + B/u + Cu, where each term has a clear physical meaning. The A term, eddy diffusion, comes from the many different paths solute molecules can take through the packed bed, causing a velocity-independent spread. The B/u term represents longitudinal diffusion: molecules diffuse along the column, and this spreading diminishes as the linear velocity u increases because less time is available for diffusion. The Cu term accounts for mass transfer resistance between the mobile and stationary phases; as velocity rises, this transfer becomes more rate-limiting, increasing broadening.

H is the plate height, a measure of peak broadening—the lower it is, the narrower the band and the more efficient the separation. At low flow, diffusion dominates and broadening is large; at high flow, mass-transfer resistance dominates and broadening also increases, giving a minimum H at an intermediate velocity.

Other options either do not match the standard form or do not provide the correct interpretation of the three contributing mechanisms, so the explicit H = A + B/u + C*u with those meanings is the best description.