Developing and interpreting deformation, velocity, and acceleration response spectra.
To use the manual effectively, you should be familiar with integral/differential calculus, matrix algebra, and trigonometric relationships. Where to Find It
To demonstrate the value of the manual, let’s look at how it solves a typical SDOF problem (e.g., Problem 3.4: a water tower subjected to a blast load).
[Problem Statement] │ ▼ [System Idealization / Free Body Diagram] │ ▼ [Formulation of the Equation of Motion] │ ▼ [Mathematical Derivation / Numerical Integration] │ ▼ [Final Structural Response & Interpretation] Value for Academic and Professional Development
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Developing and interpreting deformation, velocity, and acceleration response spectra.
To use the manual effectively, you should be familiar with integral/differential calculus, matrix algebra, and trigonometric relationships. Where to Find It
To demonstrate the value of the manual, let’s look at how it solves a typical SDOF problem (e.g., Problem 3.4: a water tower subjected to a blast load).
[Problem Statement] │ ▼ [System Idealization / Free Body Diagram] │ ▼ [Formulation of the Equation of Motion] │ ▼ [Mathematical Derivation / Numerical Integration] │ ▼ [Final Structural Response & Interpretation] Value for Academic and Professional Development
