Add to ORKGThree missile body shapes tested at Mach numbers of 1.50, 2.16, and 2.86 with angles of attack up to 30 degrees are described. The flow characteristics for each body shape are examined. The measured aerodynamic forces and moments are presented. The use of flow visualization techniques are described and the results such as vortex effects are discussed
Available flow field data which can be used in validating theoretical procedures for computing flow ...
The lift, pitching-moment, and drag characteristics of a missile configuration having a body of fine...
Evaluating the aerodynamic coefficients of flying vehicles such as missiles is a key step in their d...
Subsonic flowfields over a missile configuration are computed at high angles of attack ranging from ...
Wall static, local stream static, and pitot pressure surveys were made on the windward side of a hyp...
The aerodnamic characteristics for several bodies of revolution have been determined from wind tunne...
Experimental investigation of aerodynamic forces acting on body of revolution (NACA RM-10 missile) w...
A summary of some results from tests of a wing-body general research missile model is presented for ...
A study has been made of the experimental and theoretical aerodynamic characteristics for some gener...
Longitudinal aerodynamic characteristics of a Sparrow 3 wing control missile model were measured thr...
An experimental and computational study has been carried out to investigate the aerodynamic characte...
Evaluating the aerodynamic coefficients of flying vehicles such as missiles is a key step in their d...
In the field of long ranged military ballistics, the accurate prediction of drag forces acting on th...
An investigation has been made in the Langley 4- by 4-foot super-sonic pressure tunnel to determine ...
Tabulated body surface pressure data for two monoplane-wing missile configurations are presented and...
Available flow field data which can be used in validating theoretical procedures for computing flow ...
The lift, pitching-moment, and drag characteristics of a missile configuration having a body of fine...
Evaluating the aerodynamic coefficients of flying vehicles such as missiles is a key step in their d...
Subsonic flowfields over a missile configuration are computed at high angles of attack ranging from ...
Wall static, local stream static, and pitot pressure surveys were made on the windward side of a hyp...
The aerodnamic characteristics for several bodies of revolution have been determined from wind tunne...
Experimental investigation of aerodynamic forces acting on body of revolution (NACA RM-10 missile) w...
A summary of some results from tests of a wing-body general research missile model is presented for ...
A study has been made of the experimental and theoretical aerodynamic characteristics for some gener...
Longitudinal aerodynamic characteristics of a Sparrow 3 wing control missile model were measured thr...
An experimental and computational study has been carried out to investigate the aerodynamic characte...
Evaluating the aerodynamic coefficients of flying vehicles such as missiles is a key step in their d...
In the field of long ranged military ballistics, the accurate prediction of drag forces acting on th...
An investigation has been made in the Langley 4- by 4-foot super-sonic pressure tunnel to determine ...
Tabulated body surface pressure data for two monoplane-wing missile configurations are presented and...
Available flow field data which can be used in validating theoretical procedures for computing flow ...
The lift, pitching-moment, and drag characteristics of a missile configuration having a body of fine...
Evaluating the aerodynamic coefficients of flying vehicles such as missiles is a key step in their d...