The definition of no-slip condition is: Select one: O a. Fluids accelerate at solid boundaries due to turbulence, causing maximum flow velocity at boundary surfaces. O b. Fluids stick to solid boundaries due to viscosity, causing flow velocity at boundary surfaces to be near zero. O c. Fluids decelerate at solid boundaries due to surface roughness, causing flow velocity at boundary surfaces to be smaller than that of the main flow, but still more than zero. O d. Fluids stick to solid boundaries due to viscosity, causing flow velocity at boundary surfaces to be the same as that of the surface.

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The definition of no-slip condition is:
Select one:
O a.
Fluids accelerate at solid boundaries due to turbulence, causing maximum flow velocity at boundary surfaces.
Fluids stick to solid boundaries due to viscosity, causing flow velocity at boundary surfaces to be near zero.
O b.
O c.
Fluids decelerate at solid boundaries due to surface roughness, causing flow velocity at boundary surfaces to be smaller
than that of the main flow, but still more than zero.
O d. Fluids stick to solid boundaries due to viscosity, causing flow velocity at boundary surfaces to be the same as that of the
surface.
Transcribed Image Text:The definition of no-slip condition is: Select one: O a. Fluids accelerate at solid boundaries due to turbulence, causing maximum flow velocity at boundary surfaces. Fluids stick to solid boundaries due to viscosity, causing flow velocity at boundary surfaces to be near zero. O b. O c. Fluids decelerate at solid boundaries due to surface roughness, causing flow velocity at boundary surfaces to be smaller than that of the main flow, but still more than zero. O d. Fluids stick to solid boundaries due to viscosity, causing flow velocity at boundary surfaces to be the same as that of the surface.
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