Profiles Of Flight

Profiles of Flight

Author : Dave Windle

Publisher : Casemate Publishers

Page : 71 pages

File Size : 10,26 MB

Release : 2011-07-01

Category : Transportation

ISBN : 1848844085

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Book Description

The Vought F4U was the best carrier based fighter of WW2. 12,571 aircraft were built and downed 2,140 enemy aircraft for the loss of only 189 Corsairs. It was developed early in 1938 for the US Navy. The designer, Tex Beisel, worked on the principle of the largest engine in the smallest airframe. Britain received 2012 of the type. This book contains the world famous color profiles created by Dave Windle of the type in different operational modes, configurations and color schemes. Martin Bowman has written detailed descriptions and photographs to create the perfect enthusiasts reference.



Profiles of Flight

Author : Dave Windle

Publisher : Casemate Publishers

Page : 0 pages

File Size : 12,43 MB

Release : 2011-07-01

Category : History

ISBN : 9781848842373

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Book Description

This versatile single-seater aircraft was a joint development between the UK and France. It first flew in 1968, but its robust and flexible operational uses led to its long service life, only being retired from RAF service in 2008. It has seen front-line action in all major conflicts since introduced and has been exported to India, Ecuador, Nigeria and Oman.This book contains the world famous color profiles created by Dave Windle of the type in different operational modes, con





Flight Investigation at High Speeds of Profile Drag of Wing of a P-47D Airplane Having Production Surfaces Covered with Camouflage Paint

Author : John A. Zalovcik

Publisher :

Page : 22 pages

File Size : 15,87 MB

Release : 1946

Category : Aerodynamics

ISBN :

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Book Description

Summary: A flight investigation was made at high speeds to determine the profile drag of a P-47D airplane wing having production surfaces covered with camouflage paint. The profile drag of a wing section somewhat out-board of the flap was determined by means of wake surveys in tests made over a range of airplane lift coefficients from 0.06 to 0.69 and airplane Mach numbers from 0.25 to 0.78. The results of the tests indicated that a minimum profile-drag coefficient of 0.0097 was attained for lift coefficients from 0.16 to 0.25 at Mach numbers less than 0.67. Below the Mach number at which compressibility shock occurred, variations in Mach number of as much as 0.2 appeared to have no effect on profile-drag coefficient. The variation in Reynolds number corresponding to this variation in Mach number, however, was appreciable and may have had some effect on the results obtained. Comparison of the Mach number at which shock losses were first evident in the wake with the critical Mach number indicated that shock was not evident until the critical Mach number was exceeded by at least 0.025.





Flight Investigation of Boundary-layer and Profile-drag Characteristics of Smooth Wing Sections of a P-47D Airplane

Author : John A. Zalovcik

Publisher :

Page : 38 pages

File Size : 13,92 MB

Release : 1945

Category : Aerodynamics

ISBN :

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Book Description

Summary: A flight investigation was made of boundary-layer and profile-drag characteristics of smooth wing sections of a P-47D airplane. Measurements were made at three stations on the wing: boundary-layer measurements were made on the upper surface of the left wing in the slip-stream at 25 percent semispan; pressure-distribution measurements were made on the upper surface of the left wing at 63 percent semispan; and wake surveys were made at 63 percent semispan of the right wing. The tests were made in straight flight and in turns over a range of conditions in which airplane lift coefficients from 0.15 to 0.68, Reynolds numbers from 7.7 x 106 to 19.7 x 106, and Mach numbers from 0.25 to 0.69 were obtained. The results of the investigation indicated a minimum profile-drag coefficient of 0.0062 for the smooth section at 63 percent semispan. At the highest Mach number attained in the tests, the critical Mach number was exceeded by at least 0.04 with no evidence of compressibility shock losses appearing in the form of increased width of the wake or increased profile-drag coefficient. For flight conditions approaching the critical Mach number, variations in Mach number of as much as 0.17 appeared to have no effect on the profile-drag coefficient. In the slipstream, transition occurred at least as far back as 20 percent chord on the upper surface at low lift coefficients.





Cleared for Takeoff

Author : Rowland White

Publisher : Chronicle Books

Page : 324 pages

File Size : 49,39 MB

Release : 2016-10-11

Category :

ISBN : 145214348X

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Book Description

All of aviation's dangerous, exciting, and most courageous moments are featured within this stunning compendium on flight. Packed with stories of heroic and innovative pioneers, fascinating profiles of remarkable planes from Spitfires to space shuttles, and how-to instructions for making everything from origami helicopters to bottle rockets—all accompanied by sensational photographs, illustrations, and diagrams—Cleared for Takeoff promises to astonish, entertain, and fire the imaginations of everyone with their head in the clouds.



New Flight Profiles

Author : Zdzislaw Brodzki

Publisher :

Page : 18 pages

File Size : 27,13 MB

Release : 1978

Category : Transonic planes

ISBN :

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Flight Investigation of Boundary-layer Transition and Profile Drag of an Experimental Low-drag Wing Installed on a Fighter-type Airplane

Author : John A. Zalovcik

Publisher :

Page : 44 pages

File Size : 46,9 MB

Release : 1945

Category : Aerodynamics

ISBN :

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Book Description

A boundary-layer-transition and profile-drag investigation was conducted in flight by the National Advisory Committee for Aeronautics on an experimental low-drag wing installed on a P-47 airplane designated the XP-47F and supplied by the Army Air Forces. The wing incorporates airfoil section that vary from an NACA 66(215)-1(16.5), a = 1.0 at the plane of symmetry to an NACA 67(115)-213, a = 0.7 at the tip. The surface of the wing as constructed was found to have such a degree of waviness that it had to be refinished in order to obtain the performance generally expected of low-drag airfoils. Measurements were made at a section outside the propeller slipstream with smooth and with standard camouflage surfaces and on the upper surface of a section in the propeller slipstream with the surface smoothed. Tests were made in normal flight - that is, in level flight and in shallow dives - at indicated airspeeds ranging from about 150 to 300 miles per hour and in steady turns at 300 miles per hour with normal acceleration from 2g to 4g. These speed and acceleration limits were imposed by structural considerations. The tests in normal flight covered a range of section lift coefficient from about 0.58 to 0.15, of Reynolds number from about 9 x 106 to 18 x 106, and of Mach number from about 0.27 to 0.53. In the tests in turns at 300 miles per hour, the range of section lift coefficient was extended to 0.63.