Modern Physics: Dual Nature of Radiation and Matter
N.B. Singh
This audiobook is narrated by a digital voice.
"Modern Physics: Dual Nature of Radiation and Matter" explores the fundamental principles that govern the behavior of radiation and matter at the quantum level. From the pioneering experiments that unveiled the dual nature of light and electrons to the profound implications of Heisenberg's Uncertainty Principle, this book navigates through key discoveries and their impact on our understanding of the universe. It delves into how quantum mechanics revolutionized physics. With clear explanations and historical context, this book illuminates the intricate interplay between theory and experiment in shaping our modern worldview of the atomic and subatomic realms.
Duration - 2h 54m.
Author - N.B. Singh.
Narrator - Digital Voice Mary G.
Published Date - Monday, 20 January 2025.
Copyright - © 2024 N.B. Singh ©.
Location:
United States
Description:
This audiobook is narrated by a digital voice. "Modern Physics: Dual Nature of Radiation and Matter" explores the fundamental principles that govern the behavior of radiation and matter at the quantum level. From the pioneering experiments that unveiled the dual nature of light and electrons to the profound implications of Heisenberg's Uncertainty Principle, this book navigates through key discoveries and their impact on our understanding of the universe. It delves into how quantum mechanics revolutionized physics. With clear explanations and historical context, this book illuminates the intricate interplay between theory and experiment in shaping our modern worldview of the atomic and subatomic realms. Duration - 2h 54m. Author - N.B. Singh. Narrator - Digital Voice Mary G. Published Date - Monday, 20 January 2025. Copyright - © 2024 N.B. Singh ©.
Language:
English
Preface
Duration:00:00:28
Introduction to Modern Physics
Duration:00:01:09
Historical Background
Duration:00:01:53
Limitations of Classical Physics
Duration:00:02:10
Birth of Quantum Mechanics
Duration:00:02:10
Key Experiments
Duration:00:03:59
Basic Principles and Concepts
Duration:00:03:59
Scope and Applications
Duration:00:04:20
Wave-Particle Duality
Duration:00:01:02
Historical Context
Duration:00:04:39
Evidence from Light
Duration:00:05:03
Evidence from Matter
Duration:00:05:04
Mathematical Formulation
Duration:00:05:19
Experiments Demonstrating Duality
Duration:00:04:39
Implications and Applications
Duration:00:05:29
Quantum Theory of Light
Duration:00:01:10
Blackbody Radiation
Duration:00:04:23
Planck’s Hypothesis
Duration:00:05:15
Photons and Energy Quanta
Duration:00:05:25
Wave Properties of Light
Duration:00:05:21
Interactions with Matter
Duration:00:04:16
Applications in Modern Technology
Duration:00:04:28
Photoelectric Effect
Duration:00:01:06
Historical Experiments
Duration:00:04:23
Einstein’s Explanation
Duration:00:04:00
Quantum Implications
Duration:00:03:43
Experimental Validation
Duration:00:03:28
Technological Applications
Duration:00:03:46
Impact on Quantum Theory
Duration:00:03:36
Compton Scattering
Duration:00:01:06
Discovery and Experimentation
Duration:00:03:23
Classical vs Quantum Explanation
Duration:00:03:40
Derivation of Compton Shift
Duration:00:03:16
Experimental Evidence
Duration:00:03:26
Implications for Particle Nature of Light
Duration:00:03:36
Applications in Modern Physics
Duration:00:04:01
De Broglie Hypothesis
Duration:00:01:18
Matter Waves Concept
Duration:00:03:17
Experimental Confirmation
Duration:00:03:12
Wave Functions and Probability
Duration:00:03:36
Implications for Electrons
Duration:00:03:02
Wave-Particle Duality in Matter
Duration:00:03:19
Technological and Theoretical Applications
Duration:00:03:10
Heisenberg’s Uncertainty Principle
Duration:00:01:21
Formulation of the Principle
Duration:00:03:53
Mathematical Derivation
Duration:00:03:44
Physical Interpretation
Duration:00:04:00
Implications for Measurement
Duration:00:04:16
Applications in Quantum Mechanics
Duration:00:04:16