Explanation Given information: The gas density at t = 0 s ρ 0 and the length at t = 0 s L 0 . The variation of the velocity is linear along the piston movement. The variation of the velocity is u ( x , t ) . Write the expression for the continuity equation. ∂ ρ ( t ) ∂ t + ρ ( t ) ∂ u ∂ x + ρ ( t ) ∂ v ∂ y + ρ ( t ) ∂ w ∂ z = 0 ...(I) Here, the density is ρ , velocity components are u , v and w . Since the flow is along the x direction only so, ∂ v ∂ y = 0 ∂ w ∂ z = 0 Substitute 0 for ∂ v ∂ y and 0 for ∂ w ∂ z in Equation (I). ∂ ρ ( t ) ∂ t + ρ ( t ) ∂ u ∂ x + ρ ( t ) × 0 + ρ ( t ) × 0 = 0 ∂ ρ ( t ) ∂ t + ρ ( t ) ∂ u ∂ x = 0 ∂ ρ ( t ) ρ ( t ) = − ∂ u ∂ x ∂ t ...(II) Write the expression for the linear variation of velocity. ( u − u 1 ) = u 2 − u 1 x 2 − x 1 ( x − x 1 ) ...(III) Apply the boundary conditions to Equation (II). 1) At x = 0 ; u = V . 2) At x = L ; u = 0 . Substitute 0 for x 1 , L for x 2 , V for u 1 and 0 for u 2 in Equation (III). ( u − V ) = 0 − V L − 0 ( x − 0 ) ( u − V ) = − V L ( x ) u = V ( 1 − x L ) Write the expression for the linear variation for length

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Author: Frank M. White

Publisher: McGraw-Hill Education

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Chapter 4, Problem 4.18P

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