The correct statement about the relation between the shear stress (force) at the surface for laminar and turbulent flow over a flat plate is. a. The laminar shear stress is greater because the fluid viscosity is not important in turbulent flow. b. The turbulent shear stress is greater because the mixing dissipates more energy, producing a greater stress at the wall. c. The laminar and turbulent shear stresses are equal at the same position (x) along the plate, but since turbulence occurs farther down the plate it produces a higher shear stress. d. The laminar shear stress is less because the boundary is thinner in the laminar regime.

b.The turbulent shear stress is greater because the mixing dissipates more energy, producing a greater stress at the wall.

Explanation:

For a fluid, shear stress is related to the velocity gradient (derivative), not the absolute velocity.

Following the Poiseuille model, flow profile will appear in a channel. In that case, the flow velocity is maximum in the center, but the gradient will be zero in the center. At the wall, the flow will be zero, but the gradient will have a maximum value, therefore maximum shear stress.

Since stress depends highly on the velocity gradient near to the wall of the plate, and turbulence occurs in very high velocity flows, with high Reynold's number, then the turbulent shear stress is greater because the mixing dissipates more energy, producing a greater stress at the wall.

Which building?

Explanation:

There are many building styles to many different buildings. include a picture of what you're trying to build for others to be able to answer.