INTRODUCTION 8
CHAPTER 1: BEFORE QUANTUM PHYSICS: LIGHT AND MATTER 14
NEWTON'S LIGHT CORPUSCLES 14
YOUNG'S DOUBLE-SLIT EXPERIMENT 15
THE FAMOUS MAXWELL EQUATION 17
ELECTROMAGNETIC SPECTRA 19
A NOD TO THERMODYNAMICS 21
CHAPTER 2: MAX PLANCK THE FATHER OF QUANTUM THEORY 22
THE BOHR ATOMIC MODEL 24
THE SCHR-DINGER EQUATION 26
CHAPTER 3: THE BIRTH AND FOUNDATIONS OF QUANTUM MECHANICS 28
UNDERSTANDING THE QUANTUM NATURE OF LIGHT 28
FEW SPECIFIC CHARACTERISTICS THAT ARE SINGULAR TO LASER LIGHT INCLUDE 31
CHAPTER 4: FUNDAMENTAL PRINCIPLES AND LAWS 34
THE HUYGENS-FRESNEL PRINCIPLE 35
CHAPTER 5: EINSTEIN'S RELATIVITY 40
THE EQUIVALENCE PRINCIPLE 41
THE PROBLEM OF INERTIAL FORCES 43
RELATIVITY OF GRAVITY 45
CHAPTER 6: THE FINDING OF THE SCIENTIFICALLY DESTROYED MATERIALISM . 46
AMIT GOSWAMI SAYS THIS OF THE DISCOVERY ABOUT THE NATURE OF LIGHT 48
AMIT GOSWAMI EXPANDED THIS RESULT 50
CHAPTER 7: THE LAW OF ATTRACTION AND QUANTUM PHYSICS 52
CHAPTER 8: THE DOUBLE-SLIT EXPERIMENT 58
A GAME OF CHANCE 62
CHAPTER 9: BLACK BODY EMISSION 64
CHAPTER 10: RESISTANCE 70
STEWART-TOLMAN EFFECT 72
PIEZOELECTRICITY73
LIGHTNING 74
CHAPTER 11: PHOTOELECTRIC EFFECT: EINSTEIN'S THEORY 76
FEATURES OF PHOTOELECTRIC EMISSION.77
THE ROLE OF PHOTONS IN PHOTOELECTRIC EMISSION 79
BOUND SYSTEMS AND BINDING ENERGY80
CHAPTER 12: QUANTUM REALITY84
CHAPTER 13: HOLOGRAPHY AND QUANTUM GRAVITY90
THE MYTH OF GRAVITY 90
CHAPTER 14: UNIFIED ENERGY AND UNIFIED MATTER 94
UNIFIED FIELD 94
UNIFIED MATTER 95
THE FUTURE OF UNIFIED FIELD-BASED ON ENERGY STRINGS 96
CHAPTER 15: SUPERCONDUCTORS 98
NO RESISTANCE 98
ELECTRICAL RESISTANCE SUPERCONDUCTORS 100
TUNNEL EFFECTS 101
JOSEPHSON EFFECT 102
CHAPTER 16: EVOLUTION OF ELEMENTARY PARTICLES 104
POSTULATES 107
EVOLUTION OF THE HYDROGEN ATOM 108
CHAPTER 17: MATHEMATICS, THE LANGUAGE OF PHYSICS 110
THE ROLE OF MATHEMATICS IN PHYSICS
THREE OUTSTANDING MATHEMATICIANS: LEONHARD EULER, SRINIVASA RAMANUJAN, AND JOHN VON NEUMANN 114
CHAPTER 18: UNIVERSE 118
CHAPTER 19: QUANTUM COMPUTING 124
IS INFORMATION PHYSICAL? 124
WHAT IS A COMPUTER?124
HOW DO COMPUTERS WORK? 126
HOW SMALL CAN A SINGLE LOGIC GATE BE? 127
CAN WE CREATE COMPUTERS THAT USE FUNDAMENTALLY QUANTUM BEHAVIOR?128
WHAT IS A QUBIT?129
WHAT PHYSICAL PRINCIPLES DIFFERENTIATE CLASSICAL AND QUANTUM COMPUTERS APART? 129
CHAPTER 20: WHAT ARE YOUR QUANTUM THOUGHTS? 132
QUANTUM 132
QUANTUM MIND TACTICS 133
CONCEPTUAL ISSUES 136
PRACTICAL ISSUES 136
ETHICAL ISSUES 138
CHAPTER 21: QUANTUM DIMENSION 140
CHAPTER 22: EXAMPLES AND APPLICATIONS 148
SCHR-DINGER'S CAT 148
QUANTUM ENTANGLEMENT AND NONLOCALITY 150
UNIFICATION OF TWO WORLDS 153
CHAPTER 23: TEST REALIZATION OF QUANTUM COMPUTER 156
HETEROPOLYMERS 156
ION TRAPS 156
QUANTUM ELECTRODYNAMICS CAVITY 157
NUCLEAR MAGNETIC RESONANCE 157
QUANTUM DOTS 157
JOSEPHSON JUNCTIONS 158
THE KANE COMPUTER 158
TOPOLOGICAL QUANTUM COMPUTER 159
CHAPTER 24: THE QUANTUM WORLD OF SPINNING PARTICLES 160
ANGULAR MOMENTUM IN CLASSICAL MECHANICS 160
CHAPTER 25: FIVE MODERN APPLICATION OF QUANTUM PHYSICS 168
HERE ARE 5 OF THE MOST EXCITING ONES 169
QUANTUM PHYSICS AS SEEN IN EVERYDAY OBJECTS 172
CHAPTER 26: MODERN PHYSICS176
MATTER AND ANTI-MATTER
MEDICAL IMAGING.181
CHAPTER 27: MODERN COMPLICATION.188
A DARK MATTER GALAXY?189
CONCLUSION 192
