## Performance, Stability, Dynamics, and Control of Airplanes |

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### Contents

Review of Basic Aerodynamic Principles | 1 |

Aircraft Performance | 67 |

Static Stability and Control | 165 |

Equations of Motion and Estimation | 321 |

A Brief Review | 443 |

Airplane Response and ClosedLoop Control | 541 |

Inertia Coupling and Spin | 631 |

Stability and Control Problems at High Angles | 677 |

Appendix A Standard Atmospheres | 757 |

Cramers Rule | 763 |

Bibliography | 769 |

Series Listing | 781 |

### Other editions - View all

Performance, Stability, Dynamics, and Control of Airplanes Bandu N. Pamadi No preview available - 2015 |

### Common terms and phrases

aerodynamic center aileron aircraft airfoil altitude angle of attack angular velocity approximation aspect ratio assume aviation airplane axis center of gravity characteristic equation climb closed-loop configuration damping ratio deflection delta wing derivatives dihedral directional stability disturbance drag coefficient dynamic effect elevator estimated Euler angles feedback flight velocity flow separation forebody frequency fuselage given by Eq high angles horizontal tail increases induced drag inertia input ISBN Laplace transform lateral-directional leading edge leading-edge level flight lift coefficient lift-curve slope load factor longitudinal Mach number matrix maximum method motion Nyquist plot obtain parameter phase-variable form phugoid pitch pitching moment plane poles positive pressure rad/s response Reynolds number root chord root-locus rudder s-plane sections short-period shown in Fig side force sideslip spin stall static steady-state stick force strake strip theory subsonic speeds supersonic speeds surface thrust transfer function unit-step variation vertical tail vortex breakdown wing rock zero