On which of this parameter is the coefficient of lift over a two – dimensional body at hypersonic flow dependent?(a) γ.\(\frac {α}{τ}\)(b) γ, K, M∞(c) M∞T, \(\frac {α}{τ}\), γ(d) M∞T, K, γI have been asked this question in quiz.I'm obligated to ask this question of Hypersonic Similarity topic in chapter Transonic and Hypersonic Flows of Aerodynamics

On which of this parameter is the coefficient of lift over a two – d

1.	On which of this parameter is the coefficient of lift over a two – dimensional body at hypersonic flow dependent?(a) γ.\(\frac {α}{τ}\)(b) γ, K, M∞(c) M∞T, \(\frac {α}{τ}\), γ(d) M∞T, K, γI have been asked this question in quiz.I'm obligated to ask this question of Hypersonic Similarity topic in chapter Transonic and Hypersonic Flows of Aerodynamics
Answer» The correct option is (c) M∞T, \(\frac {α}{τ}\), γ To explain: The lift coefficient over the body at hypersonic FLOW is obtained by integrating the pressure coefficient over the surface. cl = \(\frac {1}{l} \int _0^{l}\)(Cpl – CPU)dx Where, Cpl – Cpu are coefficient of pressure over the upper and lower surface l is the length of body The above equation in terms of X is cl = \(\int _0^{1}\)(Cpl – Cpu)dx Diving this equation with the square of slenderness ratio, we get \(\frac {c_l}{τ^{2}} = \int _0^{1}\)(Cpl – Cpu)dx = f(M∞T, \(\frac {α}{τ}\), γ) THUS, coefficient of lift is a function of M∞T, \(\frac {α}{τ}\) and γ.

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