Learn Fundamentals Of Engineering And Applied Physics

A gateway into the seemingly complex world of physics - IGCSE Cambridge Level

What you'll learn
The fundamentals of Physics- concepts like thermodynamics, mechanics, and more
Practical Applications of Physics
Obtain an understanding of concepts through an effective combination of visual, kinesthetic and auditory learning
Appreciation of Physics
Requirements
A student in grade 8 or older
A minimum of 6 months of physics classes
Description
In this course, you will learn about the fundamentals of engineering and applied physics. Here, a seemingly complex subject like physics is broken down into several topics and further subtopics - making the process of learning extremely detailed. Moreover, each video spans no more than 8 minutes; this means that my explanations are as concise as you can imagine. At the end of this course, you will be able to solve numerical problems and tackle theoretical questions with ease, and you will also gain an appreciation for physics.To cover all 5 topics in the most specific way possible, I broke down the syllabus into 11 chapters:1. Measurements2. Forces and Motion3. Forces and Pressure4. Forces and Energy5. Thermal Physics6. Waves and SoundsStudents will also pick up the following skills and concepts through the course:· Ability to think critically and abstractly about physics elements and real-world applications.· Skills related to the manipulation of graphing, equations, making observations, recording data, and research.Each chapter consists of several videos for each sub-unit, wherein concepts are explained, and questions are tackled with IGCSE strategies.Whether you’re a visual, auditory, or kinaesthetic learner, my video explanations – which are a combination of all 3, will be perfect for you. I hope you enjoy!

Overview

Section 1: Chapter 1: Measurements and Uncertainties

Lecture 1 Introduction

Section 2: Chapter 2: Forces and Motion

Lecture 2 2.1: Speed, Velocity and Acceleration

Lecture 3 2.2: Motion Graphs

Lecture 4 2.3: Recording Motion

Lecture 5 2.4: Free Fall

Lecture 6 2.5: More Motion Graphs

Lecture 7 2.6: Forces

Lecture 8 2.7: Newton's Second Law

Lecture 9 2.8: Friction

Lecture 10 2.9: Force, Weight and Gravity

Lecture 11 2.10.1: Momentum (1)

Lecture 12 2.10.2: Momentim (2)

Lecture 13 2.11: Centripetal Force

Section 3: Chapter 3: Forces and Pressure

Lecture 14 3.1: Turning Effects of Forces

Lecture 15 3.2: Centre of Mass

Lecture 16 3.3: More about Turning Effects

Lecture 17 3.4: Stretching and Compressing

Lecture 18 3.5: Pressure

Lecture 19 3.6: Pressure in Liquids

Lecture 20 3.7: Pressure in Air

Lecture 21 3.8: Pressure in Gases

Section 4: Chapter 4: Forces and Energy

Lecture 22 4.1: Work and Energy

Lecture 23 4.2: Conservation of Energy

Lecture 24 4.3: GPE and KE

Lecture 25 4.4: Efficiency and Power

Section 5: Chapter 5: Thermal Physics

Lecture 26 5.1: States of Matter

Lecture 27 5.2: Temperature

Lecture 28 5.3: Thermal Expansion

Lecture 29 5.4: Gas Laws

Lecture 30 5.5: Conduction, Convection and Radiation

Lecture 31 5.6: Liquids and Vapours

Lecture 32 5.7: Specific Heat Capacity and Latent Heat

Section 6: Chapter 6: Waves and Sounds

Lecture 33 6.1: Waves

Lecture 34 6.2: Wave Effects

Lecture 35 6.3: Sound Waves

Lecture 36 6.4: Speed and Echoes

Lecture 37 6.5: Characteristics of Sound Waves

1. Grade 8 students keen on exploring physics,2. Grade 9 and 10 students keen on revising their physics concepts before examinations,3. Any physics lover curious to explore a complex subject