Free Download Basic Concepts In Physics 2023
Published 11/2023
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 7.80 GB | Duration: 9h 11m
Conceptual Physics
What you’ll learn
Understand fundamental physics concepts and mathematical tools, with an emphasis on simplicity and clarity.
Explore mechanics and dynamics, including translational and rotational motion, force, torque, and energy.
Delve into the world of light, optics, and electromagnetism, uncovering the nature of light and its interactions with matter.
Gain practical insights into key physics principles and their real-world applications.
Requirements
It’s advisable for students to have a foundational understanding of physics, mathematics, and basic scientific principles.
Description
Welcome to the "Understanding Fundamental Principles in Physics" course, a comprehensive exploration of key concepts and principles that form the bedrock of the physical sciences. This course is designed to break down complex physics topics into simple, easy-to-understand explanations, making it accessible to learners of all levels.Course Structure:Module 1: Fundamental Laws of Physics Simplified (L1.1 – L1.4) Discover the fundamental laws of physics presented in straightforward terms. These lessons provide the foundation for your journey into the world of physics.Module 2: Demystifying Sinusoidal Waves (L2.1 – L2.2) Delve into the basics of sinusoidal waves, with step-by-step explanations that help you grasp this essential concept.Module 3: Decoding FTIR Spectra (L3.1) Uncover why FTIR spectra are plotted in cm⁻¹, and gain a simple understanding of this critical technique.Module 4: Hilbert Space vs. Vector Space (L4.1) Explore the distinctions between Hilbert and vector spaces in clear and straightforward terms.Module 5: Function Expansion Unveiled (L5.1 – L5.2) Learn why functions are expanded in series and understand the step-by-step process of expanding sine and cosine functions.Module 6: Euler’s Formula Demystified (L6.1 – L6.2) Discover Euler’s formula in an easy-to-follow manner, allowing you to comprehend this mathematical gem.Module 7: Translational and Rotational Motions Simplified (L7.1 – L7.2) Get a step-by-step explanation of translational and rotational motions, including linear and angular displacement, velocity, and acceleration.Module 8: Understanding Force, Torque, Mass, and Moment of Inertia (L8.1 – L8.2) Differentiate between force and torque, mass, and moment of inertia while comprehending the concepts of linear and angular frequency.Module 9: Demystifying Planck’s Constant (L9.1) Explore the concept of Planck’s constant and its differences from the h-bar, along with the step-by-step explanation of work and energy in linear and angular dynamics.Module 10: Insight into Vector Products (L10.1 – L10.3) Understand the dot and cross-products of vectors through popular explanations and step-by-step guides.Module 11: The Nature of Light and Color (L11.1 – L11.2) Unravel the mysteries of light and colors, including why we see colors and whether light behaves as a wave or a particle.Module 12: Light Interaction with Matter (L12.1 – L12.2) Explore how light interacts with matter, including reflection and refraction, with a focus on the laws governing these phenomena.Module 13: Delving into Light Phenomena (L13.1 – L13.3) Investigate why light bends and slows down in various media, with a special focus on dispersion and total internal reflection.Module 14: Real-Life Examples (L14.1 – L16.3) Discover real-life examples of reflection, refraction, and dispersion of light in our daily lives.Module 17: The Physical Interpretation of Refraction (L17.1 – L17.3) Uncover the physical interpretation of why light bends during refraction.Module 18: Understanding Light’s Speed in a Medium (L18.1) Learn the physical interpretation of why light slows down in a medium.Module 19: Heisenberg Uncertainty Principle (L19.1) Explore the Heisenberg uncertainty principle and its implications, offering insight into the world of quantum physics.Module 20: Electric Field of an Infinite Sheet of Charge (L20.1) Understand why the electric field of an infinite sheet of charge remains independent of distance.Module 21: Conservative Fields (L21.1) Gain an understanding of conservative fields and forces in the world of physics.Whether you’re new to physics or seeking a refresher on these fundamental principles, this course will equip you with the knowledge and confidence to navigate the intriguing world of physics with ease.
Overview
Section 1: Conceptual Physics
Lecture 1 L1.1 Fundamental laws of physics in simple words
Lecture 2 L1.2 Fundamental laws of physics in simple words
Lecture 3 L1.3 Fundamental laws of physics in simple words
Lecture 4 L1.4 Fundamental laws of physics in simple words
Lecture 5 L2.1 Basics of sinusoidal waves: step by step explanation
Lecture 6 L2.2 Basics of sinusoidal waves: step by step explanation
Lecture 7 L3.1 Why FTIR spectrum is plotted in cm-1 in simple words
Lecture 8 L4.1 Hilbert space vs vector space in simple words
Lecture 9 L5.1 Why a function is expanded in series? facts explained
Lecture 10 L5.2 Why and how a sine and cosine functions are expanded?
Lecture 11 L6.1 Euler’s formula in simple easy steps
Lecture 12 L6.2 Euler’s formula in simple easy steps
Lecture 13 L7.1 Basics of translational and rotational motions: step by step explanation
Lecture 14 L7.2 Linear and angular displacement, velocity and acceleration: easy guidelines
Lecture 15 L8.1 Difference between force and torque, mass and moment of inertia
Lecture 16 L8.2 Difference between linear frequency and angular frequency
Lecture 17 L9.1 What is Planck constant? What is the difference between h and h bar
Lecture 18 L9.2 Work and energy in linear and angular dynamics: step by step explained
Lecture 19 L10.1 What is dot and cross product of two vectors: most popular explanation
Lecture 20 L10.2 What is dot product or scalar product of vectors: step by step explanation
Lecture 21 L10.3 What is cross product or vector product of vectors
Lecture 22 L11.1 Light and colors: why we see colors?
Lecture 23 L11.2 Light and colors: why we see colors?
Lecture 24 L12.1 Light is a wave or a particle
Lecture 25 L12.2 Light is a wave or a particle
Lecture 26 L13.1 Light and its interaction with matter
Lecture 27 L13.2 Reflection and refraction of light
Lecture 28 L13.3 Laws of reflection and refraction of light
Lecture 29 L14.1 Why frequency remains constant during refraction and wavelength changes?
Lecture 30 L15.1 Numericals on reflection and refraction of light
Lecture 31 L15.2 What is total internal reflection of light?
Lecture 32 L15.3 Dispersion of light
Lecture 33 L16.1 Reflection, refraction and dispersion examples in daily life
Lecture 34 L16.2 Reflection, refraction and dispersion examples in daily life
Lecture 35 L16.3 Reflection, refraction and dispersion examples in daily life
Lecture 36 L17.1 Why light bends in refraction? physical interpretation
Lecture 37 L17.2 Why light bends in refraction? physical interpretation
Lecture 38 L17.3 Why light bends in refraction? physical interpretation
Lecture 39 L18.1 Why light slows down in a medium? physical interpretation
Lecture 40 L19.1 The Heisenberg uncertainty principle: facts and interpretation
Lecture 41 L20.1 Why the electric field of an infinite sheet of charge is independent of r
Lecture 42 L21.1 What is a conservative field or force?
Lecture 43 L21.2 When there is an E Field, what’s the need of defining Electric Potential?
Lecture 44 L21.3 Why is the electric potential sign negative?
This course appears to be designed for a broad range of learners who have an interest in physics and related fields. It may be suitable for:,Students: Particularly those studying physics or related sciences at the undergraduate or graduate level, as the course content covers foundational physics topics.,Enthusiasts: Individuals who have a general interest in physics and want to gain a better understanding of fundamental principles and concepts.,Researchers: Those working in scientific research or engineering fields who wish to refresh or deepen their knowledge in areas covered by the course.,Educators: Physics instructors who may find the course content useful for teaching or as supplementary material.
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