Ace Mechanics in 10 Hours (The Complete Course)

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Gina Chou

10:02:36

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1. Introduction

1. Overview.mp4

02:12

2. Welcome and How It Works.mp4

02:41

3.1 Mechanics Formula Sheet.pdf

3.2 Mechanics Timeline.xlsx

3. Tips to Maximize Your Learning.html

2. Motion in a Straight Line

1.1 Motion in a Straight Line.pdf

1. Downloadable Notes.html

2. Kinematics Study of Motion.mp4

01:20

3. Position, Distance Travelled, and Displacement.mp4

04:54

4. Speed and Velocity.mp4

06:38

5. Graphical Representation and Turning Point.mp4

09:35

6. Acceleration, Concavity, Point of Inflection.mp4

10:08

7. Using Calculus to relate x(t), v(t), and a(t).mp4

06:52

8. Motion under Constant Acceleration.mp4

10:46

9. Examples Motion under Constant Acceleration.mp4

15:03

10. Free Fall.mp4

04:22

11. Example Free Fall.mp4

09:03

12. Motion in a Straight Line.html

3. Kinematics in Two Dimensions

1.1 Kinematics in Two Dimensions.pdf

1. Downloadable Notes.html

2. Vectors and Their Representation.mp4

04:21

3. Examples Converting Between Cartesian and Polar Representations.mp4

07:45

4. Adding and Subtracting Vectors.mp4

04:07

5. Examples Adding Vectors.mp4

10:10

6. Two-Dimensional Motion.mp4

04:21

7. Examples Two-Dimensional Motion.mp4

17:33

8. Kinematics in Two Dimensions.html

4. Dynamics

1.1 Dynamics.pdf

1. Downloadable Notes.html

2. Newton's 1st Law.mp4

03:36

3. Newton's 2nd Law.mp4

07:21

4. Types of Force.mp4

08:24

5. Examples Find the Normal Force.mp4

04:30

6. Examples Newton's 2nd Law.mp4

13:41

7. Example On an Inclined Plane.mp4

09:53

8. Example Find the Range of Forces.mp4

11:13

9. Example Tension Forces.mp4

09:17

10. Newton's 3rd Law.mp4

08:48

11. Example Newton's 3rd Law.mp4

05:54

12. Examples Atwood's Machine (Pulley).mp4

12:52

13. Examples Atwood's Machine Part 2.mp4

16:13

14. More Challenging Problems.mp4

17:48

15. Dynamics.html

5. Circular Motion and Gravity

1.1 Circular Motion and Gravity.pdf

1. Downloadable Notes.html

2. Uniform Circular Motion (UCM).mp4

07:06

3. Short Examples Newton's 2nd Law in UCM.mp4

12:58

4. Example 1 UCM and Friction.mp4

12:37

5. Example 2 UCM and Friction.mp4

09:08

6. Example Drying Machine.mp4

04:54

7. Newton's Universal Law of Gravitation.mp4

11:03

8. Non Uniform Circular Motion.mp4

08:53

9. Angular Quantities.mp4

05:56

10. Example Kinematic Equations with Angular Quantities.mp4

07:26

11. Circular Motion and Gravity.html

6. Energy and Work

1.1 Energy and Work.pdf

1. Downloadable Notes.html

2. Kinetic Energy and Potential Energy.mp4

04:54

3. Conservation of Energy.mp4

04:53

4. Work.mp4

04:03

5. Examples Conservation of Energy and Work.mp4

15:20

6. Scalar Product (Dot Product).mp4

09:18

7. Applying Scalar Product to Work.mp4

07:59

8. Another Type of Force Spring Force.mp4

04:17

9. Conservation of Energy with Spring Force.mp4

17:07

10. Conservative and Non Conservative Forces.mp4

05:36

11. Power.mp4

05:43

12. Energy and Work.html

7. Momentum and Collisions

1.1 Momentum and Collisions.pdf

1. Downloadable Notes.html

2. Newton's Laws of Motion and Momentum.mp4

04:58

3. Collisions.mp4

09:03

4. Examples Collisions.mp4

18:37

5. Opposite of Collision Object Breaks Apart.mp4

05:01

6. Impulse.mp4

07:57

7. Example Conservation of P and E (Part 1).mp4

15:47

8. Examples Conservation of P and E (Part 2).mp4

13:04

9. Examples Conservation of P and E (Part 3).mp4

12:29

10. Momentum and Collisions.html

8. Rotational Dynamics

1.1 Rotational Dynamics.pdf

1. Downloadable Notes.html

2. Introduction to Rotational Dynamics.mp4

03:16

3. Torque.mp4

10:21

4. Moment of Inertia.mp4

16:02

5. Rotational Kinetic Energy.mp4

05:48

6. Vector Product (Cross Product).mp4

11:33

7. Vector Product Applied to Torque.mp4

05:45

8. Angular Momentum.mp4

03:15

9. Examples Angular Momentum.mp4

09:21

10. Angular Momentum and Vector Product.mp4

03:41

11. Notion of Centre of Mass.mp4

02:16

12. Example Rotational Kinematic with Projectile Motion.mp4

04:58

13. Example 1 Rotational Dynamics.mp4

09:45

14. Example 2 Rotational Dynamics.mp4

08:31

15. Rotational Dynamics.html

9. Conclusion

1. Thank You & Good Luck & Next Step.mp4

00:36

Description

Understand all the important concepts in mechanics, from kinematics to dynamics

What You'll Learn?

Compare and contrast distance and displacement
Understand the graphical representation of displacement, velocity, and acceleration
Define and distinguish between vector and scalar physical quantities
Solve one- and two-dimensional kinematics problems
Describe the effects of gravity on an object's motion
Add and subtract vectors (algebraically and graphically)
Separately analyze the horizontal and vertical motions in projectile problems
Determine the net force on an object
Use Newton's second law of motion to analyze dynamic problems
Solve problems involving springs
Compare and contrast the physical properties associated with linear motion and rotational motion
Use the laws of gravity and circular motion to solve problems involving planets and satellites
Define the work done on an object by a force
Describe the relationship between work done and the change in kinetic energy
Describe the concept of potential energy and how it relates to work
Solve dynamics problems using conservation of energy
State Newton's second law in terms of momentum
Use conservation of momentum to solve collision problems
Define the conditions necessary for a rigid body to be in equilibrium
Solve statics problems
Solve kinematics and dynamic problems involving rotational motion
Compare and contrast the dynamics of linear and rotational motion
Apply energy concepts to rotational motion

Who is this for?

Anyone who has completed high school math (precalculus) and is interested in getting into the science field

Current mechanics students who are looking for extra help outside school

Anyone who is not in science stream but wants to study physics for fun

What You Need to Know?

Familiar with precalculus (algebra, trigonometry, and functions)

With little or no calculus knowledge

With little or no physics knowledge

More details

Description
HOW THIS COURSE WORK:
This course, Ace Mechanics in 10 Hours (The Complete Course), covers all the important concepts in mechanics, including video and notes from whiteboard during lectures, and practice problems (with solutions!). I also show every single step in examples and derivations of formula/equations. The course is organized into the following sections:
Motion in a Straight Line
Kinematics in Two Dimensions
Dynamics
Circular Motion and Gravity
Energy and Work
Momentum and Collisions
Rotational Dynamics

CONTENT YOU WILL GET INSIDE EACH SECTION:
Videos: I start each topic by introducing and explaining the concept. I share all my solving-problem techniques using examples. I show a variety of math issue you may encounter in class and make sure you can solve any problem by yourself.
Notes: In this section, you will find my notes that I wrote during lecture. So you can review the notes even when you don't have internet access (but I encourage you to take your own notes while taking the course!).
Extra notes: I provide some extra notes, including formula sheets and some other useful study guidance.
Assignments: After you watch me doing some examples, now it's your turn to solve the problems! Be honest and do the practice problems before you check the solutions! If you pass, great! If not, you can review the videos and notes again or ask for help in the Q&A section.

THINGS THAT ARE INCLUDED IN THE COURSE:
An instructor who truly cares about your success
Lifetime access to Introduction to Mechanics: Kinematics
Friendly support in the Q&A section
Udemy Certificate of Completion available for download

HIGHLIGHTS:
#1: Downloadable lectures so you can watch the videos whenever and wherever you are.
#2: Downloadable lecture notes so you can review the lectures without having a device to watch/listen.
#3: 7 problem sets in total at the end of each section (with solutions!) for you to do more practice.
#4: Step-by-step guide to help you solve problems.

See you inside the course!
- Gina :)
Who this course is for:
Anyone who has completed high school math (precalculus) and is interested in getting into the science field
Current mechanics students who are looking for extra help outside school
Anyone who is not in science stream but wants to study physics for fun

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Mechanics

Gina Chou

Instructor's Courses

While I was in undergrad, I was always excited to take exams because I was always well prepared and I felt accomplished after finishing each exam. I know that it is not the case for most of the students. So here, I will share my knowledge and help you to make your university life easier! :DMore about my backgroundI received my BSc in Atmospheric Science and Physics with a minor in Mathematics from the McGill University in 2018 and my MSc in Physics at the University of Toronto in 2019. I am currently a Ph.D. candidate in the Physics Department and I am interested in the impact of wind observation on the global predictability, Arctic climate, and weather processes.Since my second year of undergraduate studies, I have had extensive tutoring experiences, teaching at Liberty Tutoring, as well as high school and university students through SUS Peer Tutoring and Saturday Programs. Additionally, I have been/currently am a TA for math and physics undergraduate and graduate courses.I hope to see you in class!- Gina C.

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