Fluids Problem Part 1-Advanced Unified Engineering-Assignment, Exercises of Aeronautical Engineering

Prof. Uddhar Negi gave this assignment for Advanced Unified Engineering course at Allahabad University. It includes: Fluid, Problems, Taper, Lift, Span, Plots, Area, Parabolic, Mass, Wing

Typology: Exercises

2011/2012

Uploaded on 07/22/2012

senthil_34
senthil_34 🇮🇳

4.3

(3)

99 documents

1 / 1

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
Unified Engineering Spring 2004
Str-Mat / Fluids Problem M10/Fxx
Consider two wings with the same span b = 2 m , and average chord cavg = 0.25 m, but
different taper ratios:
Constant chord (cr = 0.250 m, ct = 0.250 m, r = 1.0)
Straight taper (cr = 0.333 m, ct = 0.167 m, r = 0.5)
Constant airfoil thickness/chord ratio κ = 0.08 everywhere.
Assume local loading q(y) is proportional to chord c(y).
Total load on half-wing is F = 10 N (15 oz gross weight at 5 g’s).
For each wing . . .
a) Determine q(y), S(y), M(y)
b) Assuming load is carried by top and bottom sparcaps with separation equal to local
h(y) = κc(y), determine sparcap load ±P(y).
c) Assuming max permissible sparcap stress (1 ksi = 7 MPa for balsa), calculate minimum
cap area A(y). Assuming balsa density of = 0.125 g/cm3, estimate sparcap mass.
d) Compute beam curvature at wing center = M(0)/EI(0), and esimate tip deflection =
w(b/2) assuming w��(y) = is constant along span. Balsa modulus: E = 200 ksi = 1.36 GPa.
e) Discuss structural and aerodynamic merits of straight vs tapered wing. Plotting of the
various distributions is suggested to help with interpretation.
c(y)
A(y)
h(y)
c(y)
y
b/2
docsity.com

Partial preview of the text

Download Fluids Problem Part 1-Advanced Unified Engineering-Assignment and more Exercises Aeronautical Engineering in PDF only on Docsity!

Unified Engineering Spring 2004 Str-Mat / Fluids Problem M10/Fxx Consider two wings with the same span b = 2 m , and average chord cavg = 0. 25 m, but different taper ratios: Constant chord (cr = 0. 250 m, ct = 0. 250 m, r = 1 .0) Straight taper (cr = 0. 333 m, ct = 0. 167 m, r = 0 .5) Constant airfoil thickness/chord ratio κ = 0. 08 everywhere. Assume local loading q(y) is proportional to chord c(y). Total load on half-wing is F = 10 N (15 oz gross weight at 5 g’s). For each wing... a) Determine q(y), S(y), M(y) b) Assuming load is carried by top and bottom sparcaps with separation equal to local h(y) = κ c(y), determine sparcap load ±P (y). c) Assuming max permissible sparcap stress (1 ksi = 7 MPa for balsa), calculate minimum cap area A(y). Assuming balsa density of � = 0. 125 g/cm^3 , estimate sparcap mass. d) Compute beam curvature at wing center � = M(0)/EI(0), and esimate tip deflection � = w(b/2) assuming w��(y) = � is constant along span. Balsa modulus: E = 200 ksi = 1. 36 GPa. e) Discuss structural and aerodynamic merits of straight vs tapered wing. Plotting of the various distributions is suggested to help with interpretation.

c(y)

A(y)

h(y)

c(y)

y

b/

docsity.com