Chapter 1 Structural Loads and Materials 1.1 Flight Vehicle Structures and Materials 1.2 Rocket Loads and Airframe Design Chapter 2 Trusses, Beams and Frames 2.1 Trusses 2.2 Frames 2.3 Matrix Displacement Method Chapter 3 Engineering Beam Theory for Thin-walled Structure 3.1 Bending of Open and Closed Section Beams 3.2 Shear of Open and Closed Section Beams 3.3 Torsion of Open and Closed Section Beams 3.4 Structural Idealization Chapter 4 Fundamental Concepts of Applies Elasticity 4.1 Stress 4.2 The Plane Stress Problem 4.3 Strain 4.4 Stress-Strainequations for Isotropic Elastic Materials 4.5 Saint-Venant' s Principle 4.6 Inverse and Semi-inverse Methods Chapter 5 Plates and Shells 5.1 Analysis of Shells with Flat Elements 5.2 Flat Shell Theory 5.3 Pure Bending of Thin Plates 5.4 Navier Solution Chapter 6 The Finite Element Analysis 6.1 Introduction 6.2 Problems in Linear Elasticity and Fields 6.3 Shape Functions, Derivatives and Integration Chapter 7 Structural Dynamics 7.1 Introduction 7.2 Single DOF Systems Free Vibrations without Damping 7.3 Force Vibrations of Single Degree of Freedom Systems without Dampings 7.4 Free Vibrations with Viscous Damping 7.5 Finite Element Method for Dynamics Bibliography