Consider the steady, incompressible, laminar flow of a Newtonian fluid in the narrow gap between two infinite parallel plates

Consider the steady, incompressible, laminar flow of a Newtonian fluid in the narrow gap between two infinite parallel plates (Figure $3(a))$. The top plate is moving at speed $V$, and the bottom plate is stationary. The distance between these two plates is $h.$ The gravity acts in the $z$ direction so the flow can be considered essentially two-dimensional in the $x-y$ plane. Assume there acts an applied pressure gradient in the $x$ -direction with its gradient given by, $\partial P/\partial x=$ \left(P_{2}-P_{1}\right) /\left(x_{2}-x_{1}\right)=(P2​−P1​)/(x2​−x1​)= constant, where x_{1}x1​ and x_{2}x2​ are two arbitrary locations along the $x$ -axis, and P_{1}P1​ and P_{2}P2​ are the pressures at those two locations.

(i) Prove that the streamwise velocity field $u$ is given by the following expression.

u=\frac{V y}{h}+\frac{1}{2 \mu} \frac{\partial P}{\partial x}\left(y^{2}-h y\right)u=hVy​+2μ1​∂x∂P​(y2−hy)

(ii) An engineer claims that the, as the gap between walls continues to widen, the applied pressure gradient will eventually determines the drag force the two walls experience. Is his/her claim true? Justify your answer with reason(s).

 

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