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With reference to a standard Cartesian (x, y) plane, the parabolic velocity distribution profile of fully developed laminar flow in x direction between two parallel stationary and identical plates that are separated by distance, h is given by the expression h² (dp 8μ dx ()) In this equation, the y = 0 axis lies equidistant between the plates at a distance h/2 from the two plates. p is the pressure variable and u is the dynamic viscosity term. The maximum and average velocities are respectively. Max and average velocity are

Structural Analysis

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Transcribed Image Text:With reference to a standard Cartesian (x, y) plane, the parabolic velocity distribution profile of fully developed laminar flow in x direction between two parallel stationary and identical plates that are separated by distance, h is given by the expression U = -h² (dp 8μ dx 1-4 In this equation, the y = 0 axis lies equidistant between the plates at a distance h/2 from the two plates. p is the pressure variable and is the dynamic viscosity term. The maximum and average velocities are respectively. Max and average velocity are

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2Q. A flow field is defined by u = 2y, v = xy. Derive expressions for the x and y components of acceleration. Find the magnitude of the velocity and acceleration at the point (2,3). Specify units in terms of L and T.
Consider the flow of water through a clear tube. It is sometimes possible to observe cavitation in the throat created by pinching off the tube to a very small diameter as sketched. We assume incompressible flow with negligible gravitational effects and negligible irreversibilities. You will learn that as the duct cross- sectional area decreases, the velocity increases and the pressure decreases according to V1A1 = V2 A2 and P1 + ρ V21 / 2 = P2 + ρ V2 2 / 2respectively, where V1 and V2 are the average velocities through cross-sectional areas A1 and A2. Thus, both the maximum velocity and minimum pressure occur at the throat. (a) If the water is at 20°C, the inlet pressure is 20.803 kPa, and the throat diameter is one-twentieth of the inlet diameter, estimate the minimum average inlet velocity at which cavitation is likely to occur in the throat. (b) Repeat at a water temperature of 50°C. Explain why the required inlet velocity is higher or lower than that of part (a).
With reference to a standard Cartesian (x, y) plane, the parabolic velocity distribution profile of fully developed laminar flow in x direction between two parallel stationary and identical plates that are separated by distance, h is given by the expression U = -h² (dp 8μ dx 1-4 In this equation, the y = 0 axis lies equidistant between the plates at a distance h/2 from the two plates. p is the pressure variable and is the dynamic viscosity term. The maximum and average velocities are respectively. Max and average velocity are

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