Table of Contents
1. How Do Objects Move?
1.1 Zeno's Paradoxes and the 'at-at' Theory 1.2 Is Motion Continuous? 1.3 The Spontaneity of Motion 1.4 Motion Is Discontinuous and Random 1.5 Double-slit Experiment 1.6 Quantum Motion 1.7 A Unified Road to Reality
2. Motion in Continuous Space and Time
2.1 The Physical Definition 2.2 The Mathematical Description 2.3 Two Kinds of Descriptions 2.4 A Heuristic Derivation of the Schrödinger Equation 2.5 Psi Is the Complete Description of the Motion 2.6 The Meaning of the Theory
3. Motion in Discrete Space and Time
3.1 The Existence of Discrete Space and Time 3.2 Discreteness of Space and Time May Result in Quantum Collapse 3.3 A Model of Wavefunction Collapse in Discrete Space and Time 3.4 Some Considerations of the Consistency with Experiments 3.5 From Quantum Motion to Classical Motion: the Unification of Two Worlds
4. The Confirmation of Quantum Motion
4.1 Quantum Entanglement 4.2 The Measurement of Quantum Motion 4.3 Protective Measurement
5. Understanding Quantum Motion
5.1 What on Earth Does Psi Tell Us? 5.2 How Does an Object Move From A to B? 5.3 Instant and Infinitesimal Time Interval 5.4 Velocity and Momentum 5.5 Quantum Motion and Copenhagen Interpretation 5.6 Understanding the Displays of Quantum Motion 5.6-1 The Stability of the Hydrogen Atom 5.6-2 Double-slit Experiment 5.6-3 Schrödinger's Cat
6. Relativity in Discrete Space and Time
6.1 Why Is the Speed of Light Maximum and Constant? 6.2 Relativity In Discrete Space and Time 6.3 On the Length Contraction 6.4 An Inference of the Speed of Photon
7. A Theory of Quantum Gravity
7.1 The Incompatibility between Quantum and Gravity 7.2 Quantum Collapse Helps to Reconcile Quantum and Gravity 7.3 A Theory of Quantum Gravity 7.4 How about Strings and Loops? 7.5 A Conjecture on the Origin of Dark Energy
8. Quantum Interactions
8.1 Why Do the Particles Create and Annihilate? 8.2 What Is Quantum Field?
9. Quantum Nonlocality
9.1 An Analysis of Quantum Nonlocality in Terms of Quantum Motion 9.2 The Existence of Preferred Lorentz Frame 9.3 How to Detect the Preferred Lorentz Frame?
10. Quantum Superluminal Communication
10.1 A General Analysis 10.2 The Principle of QSC 10.3 A Practical Scheme of QSC 10.4 Further Discussions
11. A Quantum Theory of Consciousness
11.1 Consciousness and Physical Measurement 11.2 A Quantum Effect of Consciousness 11.3 Consciousness Is a Fundamental Property of Matter 11.4 Conscious Process as Quantum Computation 11.5 A Unified Theory of Matter and Consciousness 11.6 Some Suggested Experiments