The rigorous development process used to create Mechanics for Engineers: Statics and Dynamics by Das, Kassimali & Sami insures that it's accessible and accurate. Each draft was scrutinized by a panel of your peers to suggest improvements and flush out any flaws. These carefully selected reviewers offered valuable suggestions on content, approach, accessibility, realism, and homework problems. The author team then incorporated their comments to insure that Mechanics for Engineers: Dynamics reflected the real needs of teaching professionals. The authors worked out solutions to all of their homework and example problems to check for accuracy and consistency and all of the examples and homework problems were sent out to a third party to solve and cross-check each answer in both books. And to be sure Mechanics for Engineers: Dynamics was as good as it could be, we tested it in the classroom. It was a resounding success and finally ready for your class.
Numerous step-by-step examples that demonstrate the correspondence between the FBD (FREE BODY DIAGRAM) and the mathematical analysis.
“Procedures for Analysis” sections that show students how to set up and solve a problem using FBDs to promote a consistent and methodical problem-solving approach. (See sec. 3.19,4.11 and 10.4 in Statics; sec. 1.4 and 2.3 in Dynamics.)
A Vector Approach to Statics, with a brief review of vector operations in chapters 1 and 2.
Homework Problems that are graded from simple to complex and are well balanced tests of theory and practical application. (More than 900 in Statics and more than 700 in Dynamics.)
A Short Review section and key terms at the end of each chapter to promote understanding of new concepts.
Table of Contents
1. Kinematics of Particles
2. Kinetics of Particles: Newton's Second Law of Motion
3. Kinetics of Particles: Work and Energy
4. Kinetics of Particles: Impulse and Momentum
5. Kinetics of Systems of Particles
6. Kinematics of Rigid Bodies
7. Kinetics of Rigid Bodies in Planar Motion: Force, Mass, and Acceleration
8. Kinetics of Rigid Bodies in Planar Motion: Work- Energy and Impulse- Momentum Methods
9. Spatial Dynamics
10. Introduction to Vibration