In laminar, fully developed flow within a tube, what is the typical shape of the velocity profile?

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Sharpen your skills for the Davies Publishing SPI Test with targeted flashcards and multiple-choice questions, complete with hints and clarifications. Prepare thoroughly for success!

Multiple Choice

In laminar, fully developed flow within a tube, what is the typical shape of the velocity profile?

In this situation the velocity depends only on the radial position and the balance between viscous forces and the pressure-driven flow yields a parabolic distribution. Solving the steady Navier–Stokes equations for a circular tube with a constant pressure gradient and the no-slip condition at the wall shows that the velocity varies as u(r) = U_max[1 − (r/R)^2]. This means the centerline velocity is highest and the speed tapers to zero at the wall, producing a characteristic parabola when plotted across the radius. The other shapes don’t satisfy the boundary conditions for steady, fully developed flow in a tube: uniform would ignore shear, linear would not go to zero at the wall, and exponential isn’t the solution to this steady Poiseuille-type flow.

In laminar, fully developed flow within a tube, what is the typical shape of the velocity profile?

Sharpen your skills for the Davies Publishing SPI Test with targeted flashcards and multiple-choice questions, complete with hints and clarifications. Prepare thoroughly for success!

In laminar, fully developed flow within a tube, what is the typical shape of the velocity profile?

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