Solid State Physics: Structure And Properties Of Materials 3rd Edition by M A Wahab
- Publisher: PHYSICS
- Availability: In Stock
- SKU: 22799
- Number of Pages: 618
Rs.490.00
Rs.700.00
Tags: advanced solid state physics , amorphous solids , best books , Best Price , Best Selling Books , bonding in solids , crystal defects , crystal structure , crystalline solids , dielectric materials , electrical properties of solids , electronic properties of materials , lattice vibrations , M A Wahab book , M. A. Wahab , MA Wahab , magnetism in solids , material properties guide , material science textbook , materials engineering , materials technology , Online Bookshop , optical properties of materials , phonons , physical properties of materials , physics for engineers , properties of materials , quantum solids , semiconductors , solid materials , solid state physics book , solid state physics for students , solid state physics Pakistan print , solid state physics solved examples , solid state physics theory , solid state principles , solid state science , structure of materials , superconductivity , thermal properties of solids
📘 Title Name: Solid State Physics: Structure and Properties of Materials (3rd Edition)
✍️ Author: M. A. Wahab
🔹 Introduction
"Solid State Physics" by M. A. Wahab provides a clear and systematic presentation of the structural and physical properties of solid materials. This textbook is designed for undergraduate and postgraduate students of physics and material science.
🔑 Key Points
-
Covers crystalline and amorphous structures with in-depth discussions on bonding, defects, and crystal growth.
-
Explores electrical, magnetic, dielectric, and optical properties of materials.
-
Includes modern developments like nanomaterials and superconductivity.
-
Features solved examples and end-of-chapter questions to reinforce concepts.
-
Useful for competitive exams and university coursework in material science and solid-state physics.
🔚 Conclusion
M. A. Wahab's book serves as a foundational and advanced resource for students, researchers, and professionals, offering both theoretical concepts and real-world applications in solid-state physics and material science.