Which dimensionless number is defined as the ratio of kinematic viscosity to diffusivity?

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Multiple Choice

Which dimensionless number is defined as the ratio of kinematic viscosity to diffusivity?

The key idea is comparing how quickly momentum spreads versus how quickly a species diffuses. The Schmidt number is defined as the ratio of kinematic viscosity to mass diffusivity, Sc = ν/D. Since ν and D share the same units (area per time), this ratio is dimensionless and tells you which transport process dominates: a large Sc means momentum diffusion is much faster than mass diffusion, so mass transfer is the limiting factor; a small Sc means mass diffuses readily relative to momentum. The other numbers involve different physics—Froude with gravity versus inertia, Nusselt for convective versus conductive heat transfer, and Prandtl for momentum versus thermal diffusivity—so their definitions don’t match the ratio of ν to a diffusivity of a species.

Which dimensionless number is defined as the ratio of kinematic viscosity to diffusivity?

Prepare for the AIChE Chemical Engineering Jeopardy Exam. Enhance your skills with challenging questions, detailed explanations, and exam-ready strategies. Be confident on exam day!

Which dimensionless number is defined as the ratio of kinematic viscosity to diffusivity?

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