phase2elliptical - function[] = phase2elliptical() %...

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function[] = phase2elliptical() f % Anirban Chaudhuri % Aerospace structures % Project Phase 1 clear all; close all; clc; c % Change according to UFID F = 0; % UFID first digit L = 5; % UFID last digit L % Given Parameters Wg = 350000+1000*F; % Gross weight of airplane (lb) b = 1490+10*L; % Wing-box span (in) S = 3129; % Wing gross area (sq ft) Croot = 337.25; % Wing-root chord (in) Ctip = 90; % Wing-tip chord (in) Ar = 9.3; % Aspect ratio delta = pi/6; % Wing sweep angle (=30 deg) (rad) d rho = 0.00237; % Air density (lb-s^2/ft^4) Ve = 363.8; % Equivalent aircraft velocity (knots) Ude = 66; % Derived equivalent gust velocity (fps) g = 32.174; % Gravity (ft/s^2) M = 0.55; % Mach number Beta = sqrt(1-M^2); % Calculating load factor % Aircraft Lift Curve Slope Cl_alpha = 1.15*2*pi*Ar/(2 + (4 + Ar^2*Beta^2*(1 + (tan(delta)/Beta)^2))^0.5); % Wing Mean geometric chord (ft) c_bar = (2/3)*(Croot + Ctip - (Croot*Ctip/(Croot + Ctip)))*(1/12); c mu_g = 2*Wg/(rho*g*S*c_bar*Cl_alpha); Kg = 0.88*mu_g/(5.3 + mu_g);
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This note was uploaded on 08/27/2011 for the course AEROSPACE 3115C taught by Professor Bakcer during the Spring '10 term at University of Florida.

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phase2elliptical - function[] = phase2elliptical() %...

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