Author : Maurice O. Feryn
Publisher :
Page : 66 pages
File Size : 32,85 MB
Release : 1965
Category : Airframes
ISBN :
Author : Royce L. McKinney
Publisher :
Page : 52 pages
File Size : 41,12 MB
Release : 1965
Category : Aerodynamic load
ISBN :
Author : Maurice O. Feryn
Publisher :
Page : 36 pages
File Size : 49,50 MB
Release : 1966
Category :
ISBN :
Author :
Publisher :
Page : 52 pages
File Size : 46,87 MB
Release : 1965
Category :
ISBN :
Author : Albert G. Few
Publisher :
Page : 80 pages
File Size : 43,6 MB
Release : 1954
Category : Airplanes
ISBN :
The drag due to lift increases with increasing sweep through the Mach number range. Some increase in bag due to lift is evident decrease in taper ratio for wings having 300of sweep through most of the speed range.
Author : Lloyd S. Jernell
Publisher :
Page : 74 pages
File Size : 42,39 MB
Release : 1965
Category : Aerodynamic load
ISBN :
Author : Stuart L. Treon
Publisher :
Page : 36 pages
File Size : 26,51 MB
Release : 1960
Category : Airplanes
ISBN :
Author : Clarence L. Gillis
Publisher :
Page : 48 pages
File Size : 29,75 MB
Release : 1960
Category : Airplanes
ISBN :
A test and analysis method is presented for determining airplane lateral stability characteristics, including aerodynamic derivatives, from flight tests of scale models. The method of analysis utilizes the rotating time-vector concept and also a quasi-static approach. Data are presented at transonic speeds for three swept-wing rocket-propelled models differing only in vertical position and dihedral of the wing. The method proved to be adequate for delineating the major effects of the geometric variations on the aerodynamic lateral stability derivatives. The effects of Reynolds number on the linearity of the static stability data for an unswept wing configuration are illustrated.
Author : Allen B. Henning
Publisher :
Page : 32 pages
File Size : 29,69 MB
Release : 1957
Category : Aerofoils
ISBN :
An investigation was made to determine the effects of wing inboard plan-form modifications on the lift, drag, and longitudinal characteristics of a rocket-propelled free-flight model. The model had a body of fineness ration 17.4, a modified wing with a basic plan form swept back 52.5 degrees and an aspect ratio of 3, and inline horizontal tail surfaces which were aerodynamically pulsed continuously throughout the flight.
Author : National Aeronautics and Space Administration (NASA)
Publisher : Createspace Independent Publishing Platform
Page : 34 pages
File Size : 19,69 MB
Release : 2018-08-13
Category :
ISBN : 9781725184299
Experimental investigations have been conducted to determine the effect of wing vertical position and horizontal-tail vertical and axial position on the static aerodynamic characteristics of a wing-body horizontal-tail configuration. The configurations investigated included the wing in a high, mid, or low position on the body with the horizontal tail in each of these vertical positions as well as in three axial positions. The closest position of the horizontal tail to the wing essentially provided on all-wing configuration. In addition, tests were made for the three wing positions with the horizontal tail removed. The tests were made in three different wind tunnels to provide data for a Mach number range from 0.25 to 4.63. The purpose of the investigation was to illustrate the strong effects of interference flow fields as a function of geometry and flight regime. An analysis of the results indicate some arrangements that might lead to aerodynamic problems and others in which the interference flow fields might be favorably exploited. The results suggest that a coplanar concept with a translating horizontal tail could potentially minimize the aerodynamic changes with Mach number and provide more optimum performance over the Mach number range. Spearman, M. L. Langley Research Center NASA-TM-84643, NAS 1.15:84643 RTOP 505-43-43-01...
