a) b) Air at 20°C flows at V = 12.0 m/s over a smooth flat plate of length L= 2m. Obtain (a) the thickness of laminar an

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A B Air At 20 C Flows At V 12 0 M S Over A Smooth Flat Plate Of Length L 2m Obtain A The Thickness Of Laminar An 1 (122.32 KiB) Viewed 57 times

a) b) Air at 20°C flows at V = 12.0 m/s over a smooth flat plate of length L= 2m. Obtain (a) the thickness of laminar and turbulent boundary layers, (b) compare the skin friction coefficients for both laminar and turbulent cases, and (c) from your results, justify whether a comparison between the laminar and turbulent velocity profiles is appropriate for the situation described above. [10 marks] The aerodynamic drag of a new sports car is to be predicted at a speed of 50.0 mi/h at an air temperature of 25°C. Automotive engineers build a one-fifth scale model of the car to test in a wind tunnel. It is winter and the wind tunnel is located in an unheated building; the temperature of the wind tunnel air is only about 5°C. i) Determine how fast the engineers should run the wind tunnel in order to achieve similarity between the model and the prototype. [4 marks] ii) Using the speed determined above, assuming that the average force on the model is approximately 94.3N, predict the aerodynamic drag on the prototype [4 marks] iii) State the assumptions made to carry out the above analysis [2 marks] Using a simple schematic, explain the principle and operation of a Pitot tube and illustrate how velocity estimates of the fluid are obtained using this device. c) [5 marks]