chapter 29 explains particles and elementary particles. chapter 30 explains chemical elements. chapter 31 explains chemistry. chapter 32 explains the periodic table of the elements and its applications. chapter 33 explains the physics of atoms and the periodic table of elements. chapter 34 explains electron-photon interactions. chapter 35 explains nuclear physics. chapter 36 explains einstein's theory of relativity. chapter 37 explains the standard model of particle physics.
chapter 38 explains statistical mechanics. chapter 39 explains thermodynamics. chapter 40 explains quantum mechanics. chapter 41 explains black-body radiation and matter waves. chapter 42 explains the nature of nuclear fusion and nuclear fission. chapter 43 explains quantum chemistry. chapter 44 explains nuclear reactions. chapter 45 explains cold fusion and its applications.
chapter 46 explains relativistic quantum mechanics. chapter 47 explains strong nuclear interactions. chapter 48 explains matter under extreme conditions. chapter 49 explains nuclear medicine. chapter 50 explains the physics of neutrinos. chapter 51 explains antiparticles and antimatter. chapter 52 explains the physics of cosmology. chapter 53 explains fluid mechanics and the origins of the universe. chapter 54 explains cosmology.
chapter 55 explains evolutionary biology. chapter 56 explains the biosciences and biotechnology. chapter 57 explains bioluminescence and its applications. chapter 58 explains microbiology and infections. chapter 59 explains colloids and surface science. chapter 60 explains immunology.