The identification of a new fast variable for three-dimensional flight dynamics is discussed. It is shown that the variable gives a value of the flightpath angle which is consistent with the velocity-altitude state equations and that the accuracy of single-perturbation analyses is increased by decreasing the magnitude of boundary-layer corrections. The values of the flightpath angle along the three-dimensional energy-state extremal are found to be lower by approximately an order of magnitude than those along the two-dimensional energy-state solution.
Slow and fast state variables for three-dimensional flight dynamics
01.08.1985
Sonstige
Keine Angabe
Englisch
Flight Dynamics and Optimization of Three-Dimensional Perching Maneuver
Online Contents | 2013
|Three-Dimensional Complex Variables
NTRS | 1988
|