A Textbook of Engineering Physics
ISBN:
9789354979491
Publication date:
05/10/2024
Paperback
ISBN:
9789354979491
Publication date:
05/10/2024
Paperback
The second edition of Engineering Physics is primarily designed to serve as a textbook for undergraduate students of engineering. It will also serve as a reference book for undergraduate science (B Sc) students, scientists, technologists, and practitioners of various branches of engineering.
Rights: World Rights
Description
The second edition of Engineering Physics is primarily designed to serve as a textbook for undergraduate students of engineering. It will also serve as a reference book for undergraduate science (B Sc) students, scientists, technologists, and practitioners of various branches of engineering.
Delving into key subjects with clarity and simplicity, the book is divided into four parts. Part I covers optics, waves, oscillations, architectural acoustics, and ultrasonics. Part II explores classical mechanics, relativistic mechanics, quantum mechanics, and statistical mechanics. Electromagnetism-related topics, including dielectric and magnetic properties, along with electromagnetic field theory, are discussed in Part III. Part IV delves into advanced topics such as X-rays, crystal physics, semiconductor physics, conducting and superconducting materials. The final section of the book touches upon nuclear physics, radioactivity, nanotechnology, latest engineering materials thermodynamics, and quantum computing.
Table of contents
- Interference
- Diffraction
- Polarization
- Lasers
- Optical Fibre Systems
- Waves and Oscillations
- Architectural Acoustics
- Ultrasonics
- Classical Mechanics
- Relativistic Mechanics
- Concepts of Quantum Mechanics
- Statistical Mechanics
- Dielectric Properties of Materials
- Magnetic Properties of Materials
- Electromagnetic Field Theory
- X-rays
- Crystal Physics
- Band Theory of Solids
- Semiconductor Physics
- Conducting Materials
- Superconducting Materials
- Nuclear Physics and Radioactivity
- New Engineering Materials and
Nanotechnology - Quantum Computing
- Thermal Physics
Features
- Dedicated chapters on Quantum Computing and Thermodynamics
- In-depth treatment for topics such as Crystal growth techniques, Quantum confinement, Ball milling and SILAR Techniques
- Revised applications sections of relevant chapters as per the recent advancements in technology
- Separate annexures at the end of relevant chapters to discuss advanced topics like Gravitational waves, Space telescope and Coffee ring effect in detail
Chapter-wise additional solved examples and Appendices which can be accessed with the help of QR codes
Description
The second edition of Engineering Physics is primarily designed to serve as a textbook for undergraduate students of engineering. It will also serve as a reference book for undergraduate science (B Sc) students, scientists, technologists, and practitioners of various branches of engineering.
Delving into key subjects with clarity and simplicity, the book is divided into four parts. Part I covers optics, waves, oscillations, architectural acoustics, and ultrasonics. Part II explores classical mechanics, relativistic mechanics, quantum mechanics, and statistical mechanics. Electromagnetism-related topics, including dielectric and magnetic properties, along with electromagnetic field theory, are discussed in Part III. Part IV delves into advanced topics such as X-rays, crystal physics, semiconductor physics, conducting and superconducting materials. The final section of the book touches upon nuclear physics, radioactivity, nanotechnology, latest engineering materials thermodynamics, and quantum computing.
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Table of contents
- Interference
- Diffraction
- Polarization
- Lasers
- Optical Fibre Systems
- Waves and Oscillations
- Architectural Acoustics
- Ultrasonics
- Classical Mechanics
- Relativistic Mechanics
- Concepts of Quantum Mechanics
- Statistical Mechanics
- Dielectric Properties of Materials
- Magnetic Properties of Materials
- Electromagnetic Field Theory
- X-rays
- Crystal Physics
- Band Theory of Solids
- Semiconductor Physics
- Conducting Materials
- Superconducting Materials
- Nuclear Physics and Radioactivity
- New Engineering Materials and
Nanotechnology - Quantum Computing
- Thermal Physics
Read More