From December 1991 to June 1992, applied aerodynamic research support was given to the team working on Low Sonic Boom configurations in the RAC branch at NASA Ames Research Center. This team developed two different configurations: a conventional wing-tail and a canard wing, in an effort to reduce the overpressure of shock waves and the accompanying noise which are projected to the ground from supersonic civil transport aircraft. A generic description of this sensitive technology is given
One of NASAs six Strategic Thrusts for aeronautics is Innovation in Commercial Supersonic Aircraft, ...
Near-field pressure signatures were measured and computational predictions made for several sonic bo...
This paper describes the NASA ARC program in sonic boom prediction methodologies. This activity supp...
A supersonic airplane creates shocks which coalesce and form a classical N-wave on the ground, formi...
The objective of this study was to provide low sonic boom concepts, geometry, and analysis to suppor...
The objective of the sonic boom research in the current High Speed Research Program is to ultimately...
Flight at speeds greater than the speed of sound is not permitted over land, primarily because of th...
The applicability of sonic boom minimization concepts in the design of large supersonic transport ai...
A parametric study of low-boom supersonic transport airplanes with conventional configurations was m...
A method for designing conceptual supersonic cruise aircraft to meet low sonic boom requirements is ...
The Langley unitary plan unitary plan wind tunnel was used to determine the validity of a sonic-boom...
The topics covered include the following: the sonic boom 'big picture'; current low boom technology;...
An improvement in sonic boom extrapolation techniques has been the desire of aerospace designers for...
Since 2006, when the Fundamental Aeronautics Program was instituted within NASA's Aeronautics Missio...
A discussion is given of the many factors that affect sonic booms with particular emphasis on the ap...
One of NASAs six Strategic Thrusts for aeronautics is Innovation in Commercial Supersonic Aircraft, ...
Near-field pressure signatures were measured and computational predictions made for several sonic bo...
This paper describes the NASA ARC program in sonic boom prediction methodologies. This activity supp...
A supersonic airplane creates shocks which coalesce and form a classical N-wave on the ground, formi...
The objective of this study was to provide low sonic boom concepts, geometry, and analysis to suppor...
The objective of the sonic boom research in the current High Speed Research Program is to ultimately...
Flight at speeds greater than the speed of sound is not permitted over land, primarily because of th...
The applicability of sonic boom minimization concepts in the design of large supersonic transport ai...
A parametric study of low-boom supersonic transport airplanes with conventional configurations was m...
A method for designing conceptual supersonic cruise aircraft to meet low sonic boom requirements is ...
The Langley unitary plan unitary plan wind tunnel was used to determine the validity of a sonic-boom...
The topics covered include the following: the sonic boom 'big picture'; current low boom technology;...
An improvement in sonic boom extrapolation techniques has been the desire of aerospace designers for...
Since 2006, when the Fundamental Aeronautics Program was instituted within NASA's Aeronautics Missio...
A discussion is given of the many factors that affect sonic booms with particular emphasis on the ap...
One of NASAs six Strategic Thrusts for aeronautics is Innovation in Commercial Supersonic Aircraft, ...
Near-field pressure signatures were measured and computational predictions made for several sonic bo...
This paper describes the NASA ARC program in sonic boom prediction methodologies. This activity supp...