Scientific Foundations of Engineering

An advanced overview of the fundamental physical principles underlying all engineering disciplines, with end-of-chapter problems and practical real-world applications.

Stephen McKnight (Author), Christos Zahopoulos (Author)

9781107035850, Cambridge University Press

Hardback, published 10 August 2015

398 pages, 243 b/w illus. 19 tables 206 exercises
25.3 x 17.9 x 2 cm, 0.92 kg

Providing an overview of the foundations of engineering from a fundamental scientific and physical perspective, this book reinforces the basic scientific and mathematical principles which underpin a range of engineering disciplines and applications. It covers the basics of physics, including quantum physics, as well as some key topics in chemistry, making it a valuable resource for both students and professionals looking to gain a more coherent and interdisciplinary understanding of engineering systems. Throughout, the focus is on common features of physical systems (such as mechanical and electronic resonance), showing how the same underlying principles apply to different disciplines. Problems are provided at the end of each chapter including conceptual questions and examples to demonstrate the practical application of fundamental scientific principles. These include real-world examples, which are solvable using computational packages such as MATLAB.

1. Kinematics and vectors
2. Newton's laws, energy, and momentum
3. Rotational motion
4. Rotation matrices
5. Material properties – elasticity
6. Harmonic oscillators
7. Waves
8. The quantum puzzle
9. Quantum mechanics
10. Quantum electrons
11. Quantum electrons in solids
12. Thermal physics
13. Quantum statistics
14. Electromagnetic phenomena
15. Fluids.

Subject Areas: Electronics engineering [TJF], Mechanical engineering [TGB], Maths for engineers [TBJ], Engineering: general [TBC], Quantum physics [quantum mechanics & quantum field theory PHQ], Classical mechanics [PHD]