** Mechanics for Dummies** refer to mechanistic studies given to beginners. Mechanistic studies have been there over a long time. The first person to study to study the behavior of objects via mechanics is the mathematician Archimedes of Syracuse (287-212BC). Mechanics is one of the cores of physics branch which is usually concentrated around several principles such as Sir Isaac Newton’s law of motion. These courses are required for many specific engineering disciplines. Such disciplines include areas such as statistics. Engineering in Kenya has more articles.

**Areas covered by Mechanics for Dummies**

Mechanics is a branch of the physics. This is a study on the behavior of stationary objects under applied loads. For example, how your floor beams in the house when someone is standing in the middle of your living room. Dynamics is the second area described by* Mechanics for Dummies*. This is the study of objects in motion.

Some of the examples include the flow of water through a creek, the effect on your house as one is walking down the hall amongst numerous others. Lastly is the mechanics of materials. This is also referred to as strength of materials. This branch focuses on the behavior of objects in response to loads; this area concentrates on the basic mechanical concepts of dynamics and statistics.

**Areas covered by Mechanics for Dummies**

**Areas covered by Mechanics for Dummies**

Students pursuing mechanics materials courses find challenges and dilemmas especially in basic statics and dynamic classes. This course is the first step into the real world from the theoretical world of physics. The subject is designed in that one shapes the surroundings to a better performance and task. Basic concepts of mechanics of materials and its relationship to mechanics are introduced by* Mechanics for Dummies*.

The course provides a refresher on several topics in mathematics, including geometry, trigonometry and basic calculus which are fundamental. The course also provides basic statics skills and computing internal forces of structural components. After understanding the concepts about calculating stress and strains. It is vital to explore the actual behavior of materials. This is because materials have a unique relationship between stress and strain and unique material properties. Some of the important principles of stress-strain relationship are Hooke’s law. This rule relates stress directives to load.

**Importance for Mechanics for Dummies**

*Mechanics for Dummies* is an important aspect. It facilitates Mechanical engineers to provide solutions that generate economic development to communities and countries. These developments contribute to tangible ways in a society’s life.

Most of mechanical engineering industries today are using the advanced technology to design their products, Examples of such tools included the computer aided engineering programs such as 2D and 3D computer aided design program (CAD). Therefore, the computerized designing methods provide the ability to virtually assemble machine component, ability to visualize products exhaustively and the user friendly attribute, which makes mating interfaces and tolerances easy.

These programs facilitate designing process by lowering the cost of processing and increasing the designers’ performance. Other programs of* Mechanics for Dummies* include the product life management tools (PLM) used to conduct an analysis to determine the loads response and fatigue life, finite element analysis (FEA), computational fluid dynamics (CFD) and (CAM). If the designer is to interact with other fields, then Mechatronic multidisciplinary design optimization (MDO) is the best modern tool to be considered as a complement to other computer aided programs described above. There are various text books available for **Mechanics**** for Dummies**.