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Easy Learning with Let's learn Modern Physics from Scratch
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5.5 h
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Language: English

Sale Ends: 30 Apr

Master Modern Physics: From Atoms to Electronics

What you will learn:

  • Modern Physics Fundamentals
  • Atomic Structure and Models
  • Nuclear Physics and Radioactivity
  • Nuclear Reactions (Fission & Fusion)
  • Wave-Particle Duality
  • Photoelectric Effect
  • Semiconductor Physics
  • Electronic Devices (Diodes, LEDs, Solar Cells)
  • Digital Logic Gates
  • Quantum Mechanics Basics

Description

Unravel the mysteries of the atomic world! This comprehensive course takes you on an exciting journey into the heart of modern physics, starting with the fundamental building blocks of matter and progressing to the fascinating world of electronics.

Are you curious about what lies within the atom? We'll explore the evolution of atomic models, from the early theories of Thomson and Rutherford to the groundbreaking work of Bohr. We'll delve into the mathematics and calculations behind these models, helping you grasp the core concepts with clarity and confidence.

Next, we'll journey into the nucleus, uncovering the secrets of protons, neutrons, and the powerful forces that bind them together. You'll gain a solid understanding of isotopes, isobars, and nuclear reactions, including fission and fusion, and discover how they power nuclear reactors.

We'll then uncover the dual nature of radiation and matter, exploring Einstein's revolutionary work on the photoelectric effect and De Broglie's wave-particle duality. Prepare to be amazed by the quantum world!

Finally, we'll apply your knowledge to the realm of semiconductors and electronic devices, building a foundation for further exploration in electronics and related fields. We'll cover concepts like bandgaps, doping, and the operation of essential devices such as diodes, LEDs, and solar cells.

This course employs an interactive, story-telling approach, making complex concepts engaging and memorable. Mathematical formulas and derivations are introduced in a clear, easy-to-understand format, accompanied by discussions of key experiments and discoveries.

This course is perfect for: Students with a basic scientific background, anyone curious about the quantum world, individuals looking to refresh their physics knowledge, and those wishing to delve into the foundational concepts of electronics.

Enroll now and embark on this enlightening journey into the fascinating world of modern physics!

Curriculum

Atomic Structure: Unveiling the Building Blocks of Matter

This section starts with a fundamental introduction to the atom, followed by exploring the evolution of atomic models from J.J. Thomson's 'plum pudding' model, Rutherford's nuclear model, and culminates in Bohr's atomic model, including a detailed explanation of Bohr's postulates. You'll learn to perform calculations related to these models, understand atomic spectra and energy calculations, and finally, a complete summary of the atomic structure is provided to tie together all the preceding lessons.

Atomic Structure Continued: Delving Deeper into Quantum Mechanics

Building on the previous section, this module covers Rydberg's constant, De Broglie's solution for Bohr's postulates, and limitations of the Bohr model. The section concludes with a comprehensive summary covering all aspects of atomic structure.

Nuclear Physics: Exploring the Heart of the Atom

This section explores the nucleus of an atom, covering key concepts like atomic number, mass number, nuclear mass, isotopes, isobars, and isotones. You'll also learn about nuclear isomers, electron volts, atomic mass units, nuclear size, the equivalence of energy and mass (E=mc²), mass defect, binding energy, and binding energy per nucleon. Each concept is clearly explained, with detailed examples to aid understanding.

Radiation and Nuclear Reactors: Understanding Nuclear Processes

This section explains various types of radiation: alpha, beta, and gamma decay, including detailed explanations of how these radiations are produced. The section concludes with an introduction to nuclear reactors, detailing how fission and fusion power generation work.

The Dual Nature of Radiation and Matter: Bridging the Quantum Divide

We unravel the mysteries of wave-particle duality. Learn about Einstein's theory of the photoelectric effect, including the work function, thermionic and field emission, and analyzing the Photoelectric experiment with detail on Hertz's observations and those of Hallwachs & Lenard. We conclude with De Broglie's theory and experiments demonstrating the wave nature of matter.

Semiconductors and Electronic Devices: From Theory to Application

This section introduces the world of semiconductors, explaining what they are, electron jumping across the fermi level, bandgaps, types of semiconductors, holes, extrinsic and intrinsic types. We then cover p-type and n-type semiconductors and explore devices like diodes, Zener diodes, LEDs, and solar cells, along with an introduction to digital electronics, including AND, OR, and NOT gates and their truth tables.

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