This paper describes the numerical analysis of light aircraft stability derivatives in a wide range of angles of attack, important for recovery from spin. Stability derivatives versus angle of attack and sideslip were calculated using a CFD software, based on Euler equation combined with boundary layer equations. The analysis was performed up to the 40 deg of angle of attack and up to 25 deg of sideslip
An investigation was conducted to determine the low-speed yawing stability derivatives of a twin-jet...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University Lo...
A review of the development of flight test equipment throughout aviation history is presented, focus...
This paper describes the numerical analysis of light aircraft stability derivatives in a wide range ...
An approach for modeling the stall/spin regime of single engine aircraft is presented. A three-prong...
This thesis deals with high angle of attack behaviour of a generic delta wing model aircraft. A high...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
The variation in stability derivatives with airspeed and angles of attack and sideslip is determined...
As spinning is still involved in around 60% of all aircraft accidents (BFU, 1985 and Belcastro, 2009...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
A low-speed investigation was conducted to determine the dynamic stability derivatives in pitch, rol...
The aim of this thesis research is to extend the previous work of Tapolcai utilizing nonlinearity in...
The need to investigate the static and dynamic stability for unconventional planes requires developm...
The nonlinear equations of motion are solved algebraically for conditions for which an airplane is i...
The loss of airplanes and occupants attributable to departures from controlled flight and ensuing sp...
An investigation was conducted to determine the low-speed yawing stability derivatives of a twin-jet...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University Lo...
A review of the development of flight test equipment throughout aviation history is presented, focus...
This paper describes the numerical analysis of light aircraft stability derivatives in a wide range ...
An approach for modeling the stall/spin regime of single engine aircraft is presented. A three-prong...
This thesis deals with high angle of attack behaviour of a generic delta wing model aircraft. A high...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
The variation in stability derivatives with airspeed and angles of attack and sideslip is determined...
As spinning is still involved in around 60% of all aircraft accidents (BFU, 1985 and Belcastro, 2009...
The present paper addresses the problem of spin recovery of an aircraft as a nonlinear inverse dynam...
A low-speed investigation was conducted to determine the dynamic stability derivatives in pitch, rol...
The aim of this thesis research is to extend the previous work of Tapolcai utilizing nonlinearity in...
The need to investigate the static and dynamic stability for unconventional planes requires developm...
The nonlinear equations of motion are solved algebraically for conditions for which an airplane is i...
The loss of airplanes and occupants attributable to departures from controlled flight and ensuing sp...
An investigation was conducted to determine the low-speed yawing stability derivatives of a twin-jet...
This thesis was submitted for the degree of Doctor of Philosophy and awarded by Brunel University Lo...
A review of the development of flight test equipment throughout aviation history is presented, focus...