A practical approach to the computational methods used to solve
real-world dynamics problems

Computational dynamics has grown rapidly in recent years with
the advent of high-speed digital computers and the need to develop
simulation and analysis computational capabilities for mechanical
and aerospace systems that consist of interconnected bodies.

Computational Dynamics, Second Edition offers a
full introduction to the concepts, definitions, and techniques used
in multibody dynamics and presents essential topics concerning
kinematics and dynamics of motion in two and three dimensions.

Skillfully organized into eight chapters that mirror the
standard learning sequence of computational dynamics courses, this
Second Edition begins with a discussion of classical techniques
that review some of the fundamental concepts and formulations in
the general field of dynamics. Next, it builds on these concepts in
order to demonstrate the use of the methods as the foundation for
the study of computational dynamics. Finally, the book presents
different computational methodologies used in the computer-aided
analysis of mechanical and aerospace systems.

Each chapter features simple examples that show the main ideas
and procedures, as well as straightforward problem sets that
facilitate learning and help readers build problem-solving
skills.

Clearly written and ready to apply, Computational
Dynamics, Second Edition is a valuable reference for both
aspiring and practicing mechanical and aerospace engineers.