An investigation was made at transonic speeds to determine some of the dynamic stability derivatives of a 45 deg. sweptback-wing airplane model. The model was sting mounted and was rigidly forced to perform a single-degree-of-freedom angular oscillation in pitch or yaw of +/- 2 deg. The investigation was made for angles of attack alpha, from -4 deg. to 14 deg. throughout most of the transonic speed range for values of reduced-frequency parameter from 0.015 to 0.040 based on wing mean aerodynamic chord and from 0.04 to 0.14 based on wing span. The results show that reduced frequency had only a small effect on the damping-in-pitch derivative and the oscillatory longitudinal stability derivative for all Mach numbers M and angles of attack with...
Three wing models were oscillated in yaw about their vertical axes to determine the effects of syste...
A transonic flutter investigation was made of elastically and dynamically scaled models of the tee-t...
Dynamic longitudinal and directional stability parameters for spinning body of revolution with high ...
Results are presented of a wind-tunnel investigation to evaluate the static and dynamic stability de...
A low-speed investigation was conducted to determine the dynamic stability derivatives in pitch, rol...
The aerodynamic damping in pitch, yaw, and roll and the oscillatory stability in pitch and yaw of a ...
Transonic and supersonic dynamic stability characteristics of variable sweep wing tactical fighter a...
A low-speed investigation has been conducted in the Langley stability tunnel to study the effects of...
Basic features and accuracy of dynamic stability technique used in wind tunnels to measure pitch and...
The usual technique of longitudinal stability analysis is adopted but particular attention is paid ...
Aerodynamic damping and oscillatory stability in pitch for model of typical swept wing subsonic jet ...
Results are presented of a wind-tunnel investigation to determine influence of the fuselage and tail...
Dynamic longitudinal and lateral-directional stability characteristics of the B-1 air vehicle were i...
The results of an experimental wind-tunnel investigation of the damping in pitch of two wing-body co...
Results are presented of a wind-tunnel investigation made to determine the influence of the fuselage...
Three wing models were oscillated in yaw about their vertical axes to determine the effects of syste...
A transonic flutter investigation was made of elastically and dynamically scaled models of the tee-t...
Dynamic longitudinal and directional stability parameters for spinning body of revolution with high ...
Results are presented of a wind-tunnel investigation to evaluate the static and dynamic stability de...
A low-speed investigation was conducted to determine the dynamic stability derivatives in pitch, rol...
The aerodynamic damping in pitch, yaw, and roll and the oscillatory stability in pitch and yaw of a ...
Transonic and supersonic dynamic stability characteristics of variable sweep wing tactical fighter a...
A low-speed investigation has been conducted in the Langley stability tunnel to study the effects of...
Basic features and accuracy of dynamic stability technique used in wind tunnels to measure pitch and...
The usual technique of longitudinal stability analysis is adopted but particular attention is paid ...
Aerodynamic damping and oscillatory stability in pitch for model of typical swept wing subsonic jet ...
Results are presented of a wind-tunnel investigation to determine influence of the fuselage and tail...
Dynamic longitudinal and lateral-directional stability characteristics of the B-1 air vehicle were i...
The results of an experimental wind-tunnel investigation of the damping in pitch of two wing-body co...
Results are presented of a wind-tunnel investigation made to determine the influence of the fuselage...
Three wing models were oscillated in yaw about their vertical axes to determine the effects of syste...
A transonic flutter investigation was made of elastically and dynamically scaled models of the tee-t...
Dynamic longitudinal and directional stability parameters for spinning body of revolution with high ...