Of all the types of drag, induced drag is associated with the creation and generation of lift over wings. Induced drag is directly driven by the span load that the aircraft is flying at. The tools by which to calculate and predict induced drag we use were created by Ludwig Prandtl in 1903. Within a decade after Prandtl created a tool for calculating induced drag, Prandtl and his students had optimized the problem to solve the minimum induced drag for a wing of a given span, formalized and written about in 1920. This solution is quoted in textbooks extensively today. Prandtl did not stop with this first solution, and came to a dramatically different solution in 1932. Subsequent development of this 1932 solution solves several aeronautics design difficulties simultaneously, including maximum performance, minimum structure, minimum drag loss due to control input, and solution to adverse yaw without a vertical tail. This presentation lists that solution by Prandtl, and the refinements by Horten, Jones, Kline, Viswanathan, and Whitcomb.
[1]
Ludwig Prandtl,et al.
Applications of Modern Hydrodynamics to Aeronautics
,
1923
.
[2]
Richard T. Whitcomb,et al.
A design approach and selected wind tunnel results at high subsonic speeds for wing-tip mounted winglets
,
1976
.
[3]
Max M Munk,et al.
The Minimum Induced Drag of Aerofoils
,
1979
.
[4]
Sathy P. Viswanathan,et al.
Approximate solution of minimum induced drag of wings with given structural weight
,
1975
.
[5]
John David Anderson,et al.
A history of aerodynamics and its impact on flying machines
,
1997
.
[6]
W. Tollmien,et al.
Über Tragflügel kleinsten induzierten Widerstandes
,
1961
.
[7]
Robert Thomas Jones,et al.
The Spanwise Distribution of Lift for Minimum Induced Drag of Wings Having a Given Lift and a Given Bending Moment
,
1950
.
[8]
W. L. Finley.
The California Condor
,
1908
.