Quantum Physics for Beginners: From Wave Theory to Quantum Computing. Understanding How Everything Works by a Simplified Explanation of Quantum Physics and Mechanics Principles Paperback – March 14, 2021
click the link to get book
Best point of book
Master the basics of quantum physics without feeling overwhelmed by complex math!
⭐ Over 20,000 copies sold ⭐
🏆 BookAuthority’s best Wave Mechanics books for beginners 🏆
🏆 BookAuthority’s best Quantum Mechanics books for beginners 🏆
2024 Bonuses included:
- 🎁 Bonus 1 – Quantum Tunnelling: Discover everything you need to know about quantum tunneling, including how particles can pass through barriers, in this brand-new chapter.
- 🎁 Bonus 2 – Physics and Superheroes: In this fully illustrated digital article, Carl J. Pratt explores the superpowers of some of the most famous heroes from the Marvel and DC universes using the laws of classical and quantum physic
- 🎁 Bonus 3 – The Science Behind Galactic Sagas: Join Carl J. Pratt in this digital article as he delves into the physics and quantum physics behind epic galactic sagas. Discover the real-world science that parallels these interstellar adventures.
- 🎁 Bonus 4 – Quantum Horizons Preview: Get a digital sneak peek into Carl J. Pratt’s latest book, Quantum Horizons. Explore cosmic mysteries through the lens of quantum physics, traveling through parallel universes, black holes, white holes, antimatter, and more. No complex math, just the marvels of the universe made accessible.
Here’s a detailed breakdown of the major points that might be covered in the book “Quantum Physics for Beginners: From Wave Theory to Quantum Computing. Understanding How Everything Works by a Simplified Explanation of Quantum Physics and Mechanics Principles”:
you are on right place !
1. Introduction to Quantum Physics
- Classical vs. Quantum Physics: An overview of classical mechanics and its limitations, leading to the need for quantum mechanics. Differences between deterministic classical mechanics and probabilistic quantum mechanics.
- Historical Background: Key historical milestones, including the black-body radiation problem, the photoelectric effect, and the contributions of pioneers like Max Planck, Albert Einstein, Niels Bohr, Werner Heisenberg, and Erwin Schrödinger.
2. Wave-Particle Duality
- Light as Waves and Particles: Introduction to the concept of wave-particle duality. Explanation of how light and matter exhibit both wave-like and particle-like properties.
- Double-Slit Experiment: Detailed description of Thomas Young’s double-slit experiment and its implications for the nature of light and particles.
- Photon Concept: Introduction to the concept of photons and how they carry energy.
3. Quantum Mechanics Fundamentals
- Superposition Principle: Explanation of the superposition principle, where a quantum system can exist in multiple states simultaneously.
- Entanglement: Introduction to quantum entanglement, where particles become interconnected and the state of one particle instantly influences the state of another, regardless of distance.
- Quantum States and Qubits: Explanation of quantum states and the concept of qubits, which are the basic units of information in quantum computing.
4. The Schrödinger Equation
- Wave Functions: Introduction to wave functions and their significance in describing the quantum state of a system.
- Probability Amplitudes: Explanation of how probabilities are derived from wave functions using the concept of probability amplitudes.
- Time-Dependent Schrödinger Equation: Basic form of the Schrödinger equation and its role in predicting the future behavior of quantum systems.
5. Heisenberg’s Uncertainty Principle
- Uncertainty Principle: Explanation of the Heisenberg Uncertainty Principle, which states that certain pairs of physical properties (like position and momentum) cannot be simultaneously measured with arbitrary precision.
- Implications for Measurement: Discussion of the philosophical and practical implications of the uncertainty principle in quantum mechanics.
6. Quantum Tunneling
- Tunneling Phenomenon: Explanation of quantum tunneling, where particles can pass through potential barriers that they classically shouldn’t be able to.
- Applications: Examples of applications, such as tunneling diodes and the role of tunneling in nuclear fusion within stars.
7. Quantum Entanglement and Non-Locality
- Einstein-Podolsky-Rosen (EPR) Paradox: Discussion of the EPR paradox and its challenge to the completeness of quantum mechanics.
- Bell’s Theorem: Introduction to Bell’s Theorem and experiments that demonstrate the non-local nature of quantum mechanics.
- Quantum Teleportation: Basic concept of quantum teleportation and its experimental realization.
8. Quantum Computing
- Basics of Quantum Computing: Introduction to the principles of quantum computing and how it differs from classical computing.
- Qubits and Quantum Gates: Explanation of qubits, quantum gates, and basic quantum algorithms like Shor’s algorithm and Grover’s algorithm.
- Current State and Future Prospects: Overview of the current state of quantum computing technology and its potential future applications.
9. Interpretations of Quantum Mechanics
- Copenhagen Interpretation: The traditional interpretation of quantum mechanics that emphasizes the role of measurement.
- Many-Worlds Interpretation: Explanation of the many-worlds interpretation, where all possible outcomes of quantum measurements are realized in some “branch” of the universe.
- Other Interpretations: Brief discussion of other interpretations, such as the pilot-wave theory and objective collapse theories.
10. Applications and Implications
- Technological Applications: Real-world applications of quantum mechanics in technology, such as semiconductors, lasers, and MRI machines.
- Philosophical Implications: Discussion of the philosophical questions raised by quantum mechanics, including the nature of reality and the limits of human knowledge.
- Future Directions: Speculations on future developments in quantum mechanics and its potential impact on science and technology.
This detailed breakdown covers the essential concepts and topics that would provide a comprehensive introduction to quantum physics, making complex ideas accessible to beginners.
Click below Link for orignal book site and easy to get book file
