Add to ORKGAerodynamic derivatives were obtained for the M2-F2 lifting body flight vehicle in the subsonic flight region between Mach numbers of 0.41 and 0.64 and altitudes of 7000 feet to 45,000 feet. The derivatives were determined by a flight time history curve-fitting process utilizing a hybrid computer. The flight-determined derivatives are compared with wind-tunnel and predicted values. Modal-response characteristics, calculated from the flight derivatives, are presented
Results are presented of a wind-tunnel investigation to evaluate the static and dynamic stability de...
Flight-determined stability & control derivatives of supersonic aircraft with low aspect ratio unswe...
In response to the interest in airplane configuration characteristics at high angles of attack, an u...
The HL-10 lifting body stability and control derivatives were determined by using an analog-matching...
Results are presented for wind tunnel tests of a one to twelve scale model of the M2-F2 lifting body...
Vertical tail loads and control surface hinge moment measurements on M2-F2 lifting body at subsonic ...
Percentage distributions of 423 pilot ratings obtained from 27 flights are used to indicate the gene...
This paper examines flight-measured subsonic lift and drag characteristics of seven lifting-body and...
Aerodynamic characteristics of HL-10 reentry vehicle model at subsonic and supersonic speed
Flight-determined low speed lift and drag characteristics of lightweight M-2 lifting bod
A wind-tunnel investigation was made to determine the longitudinal- and lateral-stability derivative...
A modified maximum likelihood estimation (MMLE) technique which included a provision for including a...
Lateral directional stability and control characteristics of lightweight M2-F1 lifting body at low s...
Stability and control characteristics of reentry vehicle configurations at angles of attack up to 90...
A brief study was made to assess the applicability of the Newton-Raphson digital computer program as...
Results are presented of a wind-tunnel investigation to evaluate the static and dynamic stability de...
Flight-determined stability & control derivatives of supersonic aircraft with low aspect ratio unswe...
In response to the interest in airplane configuration characteristics at high angles of attack, an u...
The HL-10 lifting body stability and control derivatives were determined by using an analog-matching...
Results are presented for wind tunnel tests of a one to twelve scale model of the M2-F2 lifting body...
Vertical tail loads and control surface hinge moment measurements on M2-F2 lifting body at subsonic ...
Percentage distributions of 423 pilot ratings obtained from 27 flights are used to indicate the gene...
This paper examines flight-measured subsonic lift and drag characteristics of seven lifting-body and...
Aerodynamic characteristics of HL-10 reentry vehicle model at subsonic and supersonic speed
Flight-determined low speed lift and drag characteristics of lightweight M-2 lifting bod
A wind-tunnel investigation was made to determine the longitudinal- and lateral-stability derivative...
A modified maximum likelihood estimation (MMLE) technique which included a provision for including a...
Lateral directional stability and control characteristics of lightweight M2-F1 lifting body at low s...
Stability and control characteristics of reentry vehicle configurations at angles of attack up to 90...
A brief study was made to assess the applicability of the Newton-Raphson digital computer program as...
Results are presented of a wind-tunnel investigation to evaluate the static and dynamic stability de...
Flight-determined stability & control derivatives of supersonic aircraft with low aspect ratio unswe...
In response to the interest in airplane configuration characteristics at high angles of attack, an u...