The Static and Dynamic Longitudinal Stability Characteristics of Some Supersonic Aircraft Configurations
Author: Jesse L. Mitchell
Publisher:
Published: 1952
Total Pages: 32
ISBN-13:
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Author: Jesse L. Mitchell
Publisher:
Published: 1952
Total Pages: 32
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DOWNLOAD EBOOKAuthor: M. Leroy Spearman
Publisher:
Published: 1959
Total Pages: 22
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DOWNLOAD EBOOKAuthor: M. Leroy Spearman
Publisher:
Published: 1957
Total Pages: 41
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DOWNLOAD EBOOKAuthor: M. Leroy Spearman
Publisher:
Published: 1956
Total Pages: 15
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DOWNLOAD EBOOKAuthor: Feliko Iosifovich Sklianskii
Publisher:
Published: 1966
Total Pages: 402
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DOWNLOAD EBOOKContents: General information, equations of motion, definitions; Stability and controllability characteristics of aircraft, formation of forces on control levers of aircraft with non-power-assisted (boosterless) control systems; Change of characteristics of stability and controllability of aircraft at transonic and supersonic speeds of flight; Improvement of stability and controllability characteristics by methods of aerodynamic design and selection of shapes of supersonic aircraft; Power control formation of forces on aircraft control levers with power control; Application of automatic devices for improvement of characteristics of dynamic stability and controllability of present-day aircraft; Certain questions of the further development of control systems; The influence of deformation of the aircraft structure on its stability and controllability; Increase of safety of flight and emergency control.
Author:
Publisher:
Published: 1960
Total Pages: 80
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DOWNLOAD EBOOKA free-flight rocket-propelled-model investigation was conducted at Mach numbers of 1.2 to 1.9 to determine the longitudinal and lateral aero-dynamic characteristics of a low-drag aircraft configuration. The model consisted of an aspect-ratio -1.86 arrow wing with 67.5 deg. leading-edge sweep and NACA 65A004 airfoil section and a triangular vertical tail with 60 deg. sweep and NACA 65A003 section in combination with a body of fineness ratio 20. Aerodynamic data in pitch, yaw, and roll were obtained from transient motions induced by small pulse rockets firing at intervals in the pitch and yaw directions. From the results of this brief aerodynamic investigation, it is observed that very slender body shapes can provide increased volumetric capacity with little or no increase in zero-lift drag and that body fineness ratios of the order of 20 should be considered in the design of long-range supersonic aircraft. The zero-lift drag and the drag-due-to-lift parameter of the test configuration varied linearly with Mach number. The maximum lift-drag ratio was 7.0 at a Mach number of 1.25 and decreased slightly to a value of 6.6 at a Mach number of 1.81. The optimum lift coefficient, normal-force-curve slope, lateral-force-curve slope, static stability in pitch and yaw, time to damp to one-half amplitude in pitch and yaw, the sum of the rotary damping derivatives in pitch and also in yaw, and the static rolling derivatives all decreased with an increase in Mach number. Values of certain rolling derivatives were obtained by application of the least-squares method to the differential equation of rolling motion. A comparison of the experimental and calculated total rolling-moment-coefficient variation during transient oscillations of the model indicated good agreement when the damping-in-roll contribution was included with the static rolling-moment terms.
Author: David Edgar Hahne
Publisher:
Published: 1989
Total Pages: 40
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DOWNLOAD EBOOKAuthor: United States. National Advisory Committee for Aeronautics
Publisher:
Published: 1959
Total Pages: 388
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DOWNLOAD EBOOKAuthor: R. Franklin Wells
Publisher:
Published: 1960
Total Pages: 56
ISBN-13:
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