Table of Contents 1. Composition with Variation 2. Chemical Kinetics 3. State of Gas and Liquid 4. Symmetry Elements 5. The Polymers 6. Surface Chemistry 7. Photochemistry
Table of Contents 1. Temperature Measurement 2. Derived Theory 3. Macroscopic Properties 4. Change of State 5. Heat Capacity 6. Heat and Temperature 7. The Reversibility 8. Physical Significance 9. Changing State
Table of Contents 1. Quantum Physics 2. Elementary Particles 3. The Accelerators 4. Decay of Radioactive Nucleus 5. Atomic Mode 6. The Spectrum 7. The Crystalline 8. Crystal Structure 9. Space Lattice 10. Phase Space 11. Monatomic Linear Crystal 12. The Diodes 13. The Semiconductors 14. Distribution of Energy 15. Energy Band Structure 16. Photoconductive Device 17. Microelectronic Circuits
High pressure biology is an old, fascinating and stimulating field of research. One of the major reasons for the interest in studying high pressure is that this environmental factor also plays an important role in thermodynamics and consequently in biology. Pressure, from a biological perspective, has a bearing on all living creatures. The book presents a panoramic view of this subject from molecules to the overall organism, via the cells and unicellular species, invertebrates and vertebrates, ectotherms and endotherms.
Dynamics: the Geometry of Behavior (Studies in nonlinearity)
This is one of my favorite books. Chock full of enlightening artwork, page after page of colorful drawings, graphs, representations of springs, sound, heat, and other non-linear, real-world phenomena explained and illustrated for intuitive ease. Even if you're not a scientist, or a mathematics fan - this book will open your eyes to concepts that scientists deal with, and that deeply inspire artists and musicians alike.
