24 Hours To Master Physics- From Beginners To Advanced Level

Classical Mechanics with 400+ questions

What you'll learn

Concept building

Problem solving strategy

School or College level preparation

Getting ready for competitive exams

Requirements

Come with an open mind as I have covered from the most basic level

Description

Welcome! This meticulously designed course is your key to unlocking the fascinating world of classical mechanics, one of the foundational branches of physics. Whether you're a student, a science enthusiast, or a professional seeking to strengthen your understanding, this course provides a comprehensive and in-depth exploration of classical mechanics.Through a series of around 170 concise and engaging lectures, each lasting approximately 8 minutes, you'll embark on an immersive learning journey spanning over 24 hours. Led by an experienced and passionate instructor, you'll unravel the fundamental principles and mathematical techniques that underpin classical mechanics.Starting from the basics, you'll gradually progress to advanced topics, building a strong conceptual foundation along the way. Topics covered include 1-D Kinematics, Projectile motion, Newton's laws of motion, Friction, SHM, Rotation and much more. Each lecture is carefully crafted to present complex concepts in a clear and accessible manner, ensuring that learners of all levels can grasp the material. After lectures, you will get a Quiz of 5 questions to test your understanding.With a focus on practical applications, this course equips you with the analytical skills necessary to solve real-world problems. Through hands-on examples, demonstrations, and thought-provoking exercises, you'll develop a solid understanding of classical mechanics and its applications in various fields such as engineering, astrophysics, and robotics.Enroll now in "24 hours to Master Physics- from Beginners to Advanced level" and unlock the secrets of this timeless branch of physics. Get ready to embark on a journey of discovery and gain the confidence to tackle complex problems with ease!

Overview

Section 1: Units and Standards

Lecture 1 Introduction: Units and Standards

Section 2: Displacement vs Distance

Lecture 2 Introduction: Part 1

Lecture 3 Practice questions: Part 2

Lecture 4 Practice questions: Part 3

Lecture 5 Practice questions: Part 4

Section 3: Velocity vs Speed

Lecture 6 Introduction : Part 1

Lecture 7 Practice questions: Part 2

Lecture 8 Practice questions: Part 3

Lecture 9 Speed vs Velocity: Part 4

Lecture 10 Speed vs Velocity: Part 5

Section 4: Graphical analysis of Position vs time

Lecture 11 Graphical analysis: Position vs time part 1

Lecture 12 Graphical analysis: Position vs time part 2

Lecture 13 Graphical analysis: Position vs time part 3

Lecture 14 Graphical analysis: Position vs time part 4

Section 5: Graphical analysis: Velocity vs time

Lecture 15 Graphical analysis: Velocity vs time part 1

Lecture 16 Graphical analysis: Velocity vs time part 2

Section 6: Acceleration and equations of motion

Lecture 17 Acceleration and equations of motion

Section 7: Practice questions on equations of motion: Level 1

Lecture 18 Practice questions on equations of motion: Level 1 Part 1

Lecture 19 Practice questions on equations of motion: Level 1 Part 2

Lecture 20 Practice questions on equations of motion: Level 1 Part 3

Lecture 21 Practice questions on equations of motion: Level 1 Part 4

Section 8: Practice questions on equations of motion: Level 2

Lecture 22 Practice questions on equations of motion: Level 2 Part 1

Lecture 23 Equations of motion_ practice questions lecture 2 part 2

Lecture 24 Equations of motion_ practice questions lecture 2 part 3

Section 9: Vectors and Relative velocity

Lecture 25 Vectors

Lecture 26 Relative velocity

Lecture 27 Practice questions on Vectors and Relative velocity: Part 1

Lecture 28 Practice questions on Vectors and Relative velocity: Part 2

Section 10: Freefall

Lecture 29 Practice questions - Freefall: Part 1

Lecture 30 Practice questions - Freefall: Part 2

Lecture 31 Practice questions - Freefall: Part 3

Lecture 32 Practice questions - Freefall: Part 4

Lecture 33 Practice questions - Freefall: Part 5

Section 11: Vector components

Lecture 34 Vector components - Part 1

Lecture 35 Vector components - Part 2

Section 12: Projectile motion

Lecture 36 Projectile motion - Introduction

Lecture 37 Projectile motion - Concept builder question

Section 13: Projectile motion - Practice questions

Lecture 38 Part 1

Lecture 39 Part 2

Lecture 40 Part 3

Section 14: Newton's law

Lecture 41 Introdution to Force and Newton's law

Section 15: Types of Forces

Lecture 42 Types of Forces

Section 16: Free Body Diagram (FBD)

Lecture 43 FBD - Introduction

Section 17: Practice questions on FBD

Lecture 44 FBD - Practice questions - Part 1

Lecture 45 FBD - Practice questions - Part 2

Section 18: Newton's law - Basic Practice questions

Lecture 46 Newton's law - Practice questions - Part 1

Lecture 47 Newton's law - Practice questions - Part 2

Section 19: Inclined plane - Introduction

Lecture 48 Inclined plane - Concept builder

Section 20: Inclined plane - Practice questions

Lecture 49 Part 1

Lecture 50 Part 2

Lecture 51 Part 3

Lecture 52 Part 4

Section 21: (Newton's law) Elevator related questions

Lecture 53 Part 1

Lecture 54 Part 2

Section 22: (Newton's law) Tension related questions

Lecture 55 Part 1

Lecture 56 Part 2

Lecture 57 Part 3

Section 23: (Newton's law) Attwood Machine

Lecture 58 Part 1

Lecture 59 Part 2

Lecture 60 Part 3

Lecture 61 Part 4

Section 24: Friction - Introduction

Lecture 62 Part 1

Lecture 63 Part 2

Section 25: Friction - Practice questions - Level 1

Lecture 64 Part 1

Lecture 65 Part 2

Lecture 66 Part 3

Section 26: Friction - Practice questions - Level 2

Lecture 67 Part 1

Lecture 68 Part 2

Lecture 69 Part 3

Lecture 70 Part 4

Lecture 71 Part 5

Section 27: Circular motion

Lecture 72 Introduction: Circular motion

Lecture 73 Practice questions: Circular motion - part 1

Lecture 74 Practice questions: Circular motion - part 2

Lecture 75 Practice questions: Circular motion - part 3

Lecture 76 (Challenging) Practice questions: Circular motion - part 4

Lecture 77 Introduction: Unbanked curve

Lecture 78 Practice questions - Unbanked curve

Lecture 79 Introduction: Banked curve

Lecture 80 Practice questions - Banked curve - part 1

Lecture 81 (Challenging) Practice questions - Banked curve - part 2

Section 28: Gravitation

Lecture 82 Gravitation - Introduction

Lecture 83 Gravitation - Practice questions part 1

Lecture 84 Gravitation - Practice questions part 2

Lecture 85 Gravitation - Practice questions part 3

Lecture 86 Satellite and Kepler's law - Introduction

Lecture 87 Satellite and Kepler's law - Practice questions part 1

Lecture 88 Satellite and Kepler's law - Practice questions part 2

Section 29: Work

Lecture 89 Introduction

Lecture 90 Work - Practice questions part 1

Lecture 91 Work - Practice questions part 2

Section 30: Energy

Lecture 92 Forms of energy - Introduction

Lecture 93 Conservative vs Non-conservative force

Lecture 94 Forms of Energy - Practice questions

Lecture 95 Theorems of Energy - Introduction

Lecture 96 Theorems of Energy - Practice questions Part 1

Lecture 97 Theorems of Energy - Practice questions Part 2

Lecture 98 Conservation of mechanical energy - practice questions part 1

Lecture 99 Conservation of mechanical energy - practice questions part 2

Lecture 100 Conservation of mechanical energy - practice questions part 3

Lecture 101 Conservation of mechanical energy - practice questions part 4

Lecture 102 Conservation of Energy with Non-Conservative force - Practice questions part 5

Lecture 103 Conservation of Energy with Non-Conservative force - Practice questions part 6

Section 31: Power

Lecture 104 Introduction

Lecture 105 Power - Practice questions Part 1

Lecture 106 Power - Practice questions Part 2

Section 32: Momentum

Lecture 107 Momentum - Introduction

Lecture 108 Momentum - Practice questions Part 1

Lecture 109 Momentum - Practice questions Part 2

Lecture 110 Momentum - Practice questions Part 3

Lecture 111 Momentum - Practice questions Part 4

Section 33: Conservation of Momentum

Lecture 112 Conservation of Momentum Introduction

Lecture 113 Conservation of Momentum Practice questions Part 1

Lecture 114 Conservation of Momentum Practice questions Part 2

Lecture 115 Conservation of Momentum Practice questions Part 3

Section 34: Types of collisions

Lecture 116 Types of collisions - Introduction

Lecture 117 Types of Collisions Practice questions Part 1

Lecture 118 Types of Collisions Practice questions Part 2

Lecture 119 Types of Collisions Practice questions Part 3

Lecture 120 Types of Collisions Practice questions Part 4

Section 35: SHM - Simple Harmonic Motion

Lecture 121 SHM - Introduction

Section 36: SHM Horizontal Spring Mass System

Lecture 122 Introduction

Lecture 123 Practice questions

Section 37: SHM Vertical Spring Mass System

Lecture 124 Introducction

Lecture 125 Practice questions - Part 1

Lecture 126 Practice questions - Part 2

Lecture 127 Practice questions - Part 3

Section 38: SHM - Energy

Lecture 128 Introduction

Lecture 129 Practice questions

Section 39: SHM - Simple Pendulum

Lecture 130 Introduction

Lecture 131 Practice questions

Section 40: Rotation

Lecture 132 Rotation - Introduction

Lecture 133 Centripetal vs Tangential acceleration

Section 41: Equations of Rotational motion

Lecture 134 Equations of Rotational motion - Introduction

Lecture 135 Equations of Rotational motion - Practice questions Part 1

Lecture 136 Equations of Rotational motion - Practice questions Part 2

Lecture 137 Equations of Rotational motion - Practice questions Part 3

Section 42: Center of Mass

Lecture 138 COM - Introduction

Lecture 139 COM - Practice questions Part 1

Lecture 140 COM - Practice questions Part 2

Section 43: Moment of inertia and Rotational KE

Lecture 141 Moment of intertia and Rotational KE - Introduction

Lecture 142 Moment of inertia and Rotational KE - Practice questions Part1

Lecture 143 Moment of inertia and Rotational KE - Practice questions Part2

Lecture 144 Moment of inertia of solid objects

Lecture 145 Parallel axis theorem

Section 44: Torque

Lecture 146 Torque - Introduction

Lecture 147 Torque - Practice Questions Part 1

Lecture 148 Torque - Practice Questions Part 2

Lecture 149 Torque - Practice Questions Part 3

Section 45: Rotational Dynamics

Lecture 150 Rotational Dynamics - Introduction

Lecture 151 Rotational Dynamics - Practice questions Part 1

Lecture 152 Rotational Dynamics - Practice questions Part 2

Lecture 153 Rotational Dynamics - Practice questions Part 3

Section 46: Static Equilibrium

Lecture 154 Static Equilibrium - Introduction

Lecture 155 Static Equilibrium - Practice questions Part 1

Lecture 156 Static Equilibrium - Practice questions Part 2

Lecture 157 Static Equilibrium - Practice questions Part 3

Lecture 158 Static Equilibrium - Practice questions Part 4

Section 47: Rolling motion

Lecture 159 Rolling motion - Introduction Part 1

Lecture 160 Rolling motion - Introduction Part 2

Lecture 161 Rolling motion - Practice questions Part 1

Lecture 162 Rolling motion - Practice questions Part 2

Lecture 163 Rolling motion - Practice questions Part 3

Section 48: Angular Momentum

Lecture 164 Angular Momentum and Conservation of Angular Momentum - Introduction

Lecture 165 Angular Momentum - Practice questions Part 1

Lecture 166 Angular Momentum - Practice questions Part 2

Section 49: Energy conservation in Rotation

Lecture 167 Energy conservation in Rotation - Practice questions Part 1

Lecture 168 Energy conservation in Rotation - Practice questions Part 2

This is for all the High schoolers or college grad taking any of the following courses: Physics honors, Regular Physics, School level Physics, AP Physics 1 and AP Physics C,This is NOT for AP Physics 2 aspirants