Computational mechanics is the study of how to use computers to solve problems in mechanics. It is a branch of applied mathematics that is concerned with the development of algorithms and software for the solution of problems in mechanics.

The field of computational mechanics has its roots in the work of early pioneers such as Isaac Newton and Gottfried Wilhelm Leibniz, who developed the calculus, a powerful tool for solving problems in physics and engineering. In the 19th century, as the field of engineering developed, so too did the need for more sophisticated methods for the solution of problems in mechanics. The development of the finite element method in the 20th century was a major breakthrough in computational mechanics, and since then the field has continued to grow and develop, with new methods and techniques being developed all the time.

Today, computational mechanics is an essential tool in the arsenal of any engineer or physicist, and is used in a wide range of applications, from the design of aircraft and automobiles to the analysis of the behavior of materials under extreme conditions.

## Other related questions:

### Q: What is the scope of computational mechanics?

A: The scope of computational mechanics is quite broad and includes many different types of problems and applications. Essentially, computational mechanics is the application of numerical methods to solve problems in mechanics. This can involve using numerical methods to solve equations that describe the behavior of a system, to simulate the behavior of a system, or to optimize the performance of a system.

### Q: Why is computational mechanics important?

A: There are many reasons why computational mechanics is important. One reason is that it allows engineers and scientists to study and predict the behavior of complex systems. Additionally, computational mechanics can be used to develop and optimize new designs, and to improve existing designs. Additionally, computational mechanics can be used to study the effects of different loading conditions on structures and materials.

### Q: What is computational mechanic mechanical engineering?

A: Computational mechanics is a branch of engineering that uses computers to simulate and analyze the behavior of physical systems. This can include everything from the behavior of particles and fluids to the behavior of solids and structures.

### Q: What is computational mechanics of Materials and Structures?

A: Computational mechanics of materials and structures is the study of how materials and structures behave under the action of external forces. It is a branch of engineering that uses numerical methods to predict the response of materials and structures to various types of loading.