Add to ORKGThe aerodynamic roll damping and the yawing moment due to roll rate characteristics were investigated at subsonic speeds for a model with either sweptback or swept forward wings. The tests were made in the Langley high speed 7 by 10 foot tunnel for Mach numbers between 0.3 and 0.7. The configuration with a 60 deg sweptback wing had positive damping in roll up to the maximum test angle of attack of almost 20 deg. The 32 deg swept forward wing configuration had positive damping in roll at the lower angles of attack, but there was a decrease in damping and negative damping in roll was measured at the highest angles of attack
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
Results are presented of wind-tunnel tests made at low speed of various small-scale models of sweptb...
Results are presented of a wind-tunnel investigation made to determine the influence of the fuselage...
In general, the variation of the damping-in-roll derivative with sweep angle at zero angle of attack...
The aerodynamic roll damping and the yawing moment due to roll rate for a model of a T-tail transpor...
Damping-in-roll coefficients for a series of triangular plan-form wings and two rectangular plan-for...
An investigation of the rolling effectiveness at transonic and supersonic speeds of partial-span ail...
Design curves are presented which permit rapid estimation of the lift-curve slope and damping-in-rol...
Dynamic longitudinal and lateral-directional stability characteristics of the B-1 air vehicle were i...
A low scale wind tunnel investigation was conducted in rolling flow to determine the effects of aspe...
A flutter model, consisting of a wing, horizontal tail, and splitter plate/fuselage mechanism, was t...
Results are presented of a wind-tunnel investigation to determine influence of the fuselage and tail...
A three-dimensional investigation of straight-sided-profile plain ailerons on a wing with 30 degrees...
A method of modifying existing correction factors of lifting-surface theory to account approximately...
The object of the investigation described in this report was to compare the damping coefficients of ...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
Results are presented of wind-tunnel tests made at low speed of various small-scale models of sweptb...
Results are presented of a wind-tunnel investigation made to determine the influence of the fuselage...
In general, the variation of the damping-in-roll derivative with sweep angle at zero angle of attack...
The aerodynamic roll damping and the yawing moment due to roll rate for a model of a T-tail transpor...
Damping-in-roll coefficients for a series of triangular plan-form wings and two rectangular plan-for...
An investigation of the rolling effectiveness at transonic and supersonic speeds of partial-span ail...
Design curves are presented which permit rapid estimation of the lift-curve slope and damping-in-rol...
Dynamic longitudinal and lateral-directional stability characteristics of the B-1 air vehicle were i...
A low scale wind tunnel investigation was conducted in rolling flow to determine the effects of aspe...
A flutter model, consisting of a wing, horizontal tail, and splitter plate/fuselage mechanism, was t...
Results are presented of a wind-tunnel investigation to determine influence of the fuselage and tail...
A three-dimensional investigation of straight-sided-profile plain ailerons on a wing with 30 degrees...
A method of modifying existing correction factors of lifting-surface theory to account approximately...
The object of the investigation described in this report was to compare the damping coefficients of ...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
Results are presented of wind-tunnel tests made at low speed of various small-scale models of sweptb...
Results are presented of a wind-tunnel investigation made to determine the influence of the fuselage...