Treidel, Lisa A; Deem, Kevin D; Salcedo, Mary K; Dickinson, Michael H; Bruce, Heather S; Darveau, Charles-A; Dickerson, Bradley H; Ellers, Olaf; Glass, Jordan R; Gordon, Caleb M; Harrison, Jon F; Hedrick, Tyson L; Johnson, Meredith G; Lebenzon, Jacqueline E; Marden, James H (2024-08-01). "Insect Flight: State of the Field and Future Directions". Integrative and Comparative Biology. 64 (2): 533–555. doi:10.1093/icb/icae106. ISSN1540-7063. PMC 11406162. PMID38982327.
"...consider a sail that is nothing but a vertical wing (generating side-force to propel a yacht). ...it is obvious that the distance between the stagnation point and the trailing edge is more or less the same on both sides. This becomes exactly true in the absence of a mast—and clearly the presence of the mast is of no consequence in the generation of lift. Thus, the generation of lift does not require different distances around the upper and lower surfaces." Holger Babinsky How do Wings Work? Physics Education November 2003, PDF
"If the body is shaped, moved, or inclined in such a way as to produce a net deflection or turning of the flow, the local velocity is changed in magnitude, direction, or both. Changing the velocity creates a net force on the body" "Lift from Flow Turning". NASA Glenn Research Center. Retrieved 2011-06-29.
Treidel, Lisa A; Deem, Kevin D; Salcedo, Mary K; Dickinson, Michael H; Bruce, Heather S; Darveau, Charles-A; Dickerson, Bradley H; Ellers, Olaf; Glass, Jordan R; Gordon, Caleb M; Harrison, Jon F; Hedrick, Tyson L; Johnson, Meredith G; Lebenzon, Jacqueline E; Marden, James H (2024-08-01). "Insect Flight: State of the Field and Future Directions". Integrative and Comparative Biology. 64 (2): 533–555. doi:10.1093/icb/icae106. ISSN1540-7063. PMC 11406162. PMID38982327.
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Treidel, Lisa A; Deem, Kevin D; Salcedo, Mary K; Dickinson, Michael H; Bruce, Heather S; Darveau, Charles-A; Dickerson, Bradley H; Ellers, Olaf; Glass, Jordan R; Gordon, Caleb M; Harrison, Jon F; Hedrick, Tyson L; Johnson, Meredith G; Lebenzon, Jacqueline E; Marden, James H (2024-08-01). "Insect Flight: State of the Field and Future Directions". Integrative and Comparative Biology. 64 (2): 533–555. doi:10.1093/icb/icae106. ISSN1540-7063. PMC 11406162. PMID38982327.
"The cause of the aerodynamic lifting force is the downward acceleration of air by the airfoil..." Weltner, Klaus; Ingelman-Sundberg, Martin, Physics of Flight – reviewed, archived from the original on 2011-07-19
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"The cause of the aerodynamic lifting force is the downward acceleration of air by the airfoil..." Weltner, Klaus; Ingelman-Sundberg, Martin, Physics of Flight – reviewed, archived from the original on 2011-07-19
Treidel, Lisa A; Deem, Kevin D; Salcedo, Mary K; Dickinson, Michael H; Bruce, Heather S; Darveau, Charles-A; Dickerson, Bradley H; Ellers, Olaf; Glass, Jordan R; Gordon, Caleb M; Harrison, Jon F; Hedrick, Tyson L; Johnson, Meredith G; Lebenzon, Jacqueline E; Marden, James H (2024-08-01). "Insect Flight: State of the Field and Future Directions". Integrative and Comparative Biology. 64 (2): 533–555. doi:10.1093/icb/icae106. ISSN1540-7063. PMC 11406162. PMID38982327.
