### List of Video Titles

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Introduction to Mechanics

Defining Momentum & Force

Newton’s First Law: Inertia

Newton’s Second Law: Inertial Mass

Newton’s Third Law: Reactions

Mechanics Example 1: Using F = ma to find v(t)

Mechanics Example 2: Using F = ma to find v(x)

Mechanics Example 3: Starting from Displacement Function

Weight

Mechanics Example 4: Calculating Total Distance of a Multi-Step Journey

Introduction to Resisted Motion (1 of 2: What is Resistance?)

Introduction to Resisted Motion (2 of 2: Example question)

Resistance – should it be kv or mkv? (1 of 3: Introductory thoughts)

Resistance – should it be kv or mkv? (2 of 3: Inferring from details in the question)

Resistance – should it be kv or mkv? (3 of 3: What to do when it’s ambiguous)

Vertical Resistance & Gravity: Framing the Question

Mechanics Example 5: Momentum, Terminal Velocity & Total Distance

The Inclined Cyclist (2 of 2: Friction & Angle)

The Inclined Cyclist (1 of 2: Explanation & Question)

Banked Tracks: Example Question

Introduction to Banked Tracks (1 of 2: What are they?)

Introduction to Banked Tracks (2 of 2: Optimum Speed & Height)

Conical Pendulum Inside a Bowl (1 of 2: Setting up the question)

Conical Pendulum Inside a Bowl (2 of 2: An unexpected change in tension)

Pendulum on Surface of Cone (1 of 2: Tension & Normal Force)

Pendulum on Surface of Cone (2 of 2: Determining Maximum Velocity)

General Purpose Algorithm for Mechanics Questions

The Conical Pendulum (1 of 2: Understanding the Forces)

The Conical Pendulum (2 of 2: Determining Tension, Angle & Height)

Uniform Circular Motion: Basic Example Question

Force Equations for Uniform & Non-Uniform Circular Motion

Uniform Circular Motion: Tension & Tensile Strength

Uniform Circular Motion: Determining Tangent & Normal Forces

Uniform Circular Motion – Direction of Acceleration (1 of 2: Adding Vectors Visually)

Uniform Circular Motion – Direction of Acceleration (2 of 2: Force Equations)

Introduction to Circular Motion: Angular & Linear Velocity

Vertical Resistance & Gravity example question (1 of 2: Finding x(v))

Vertical Resistance & Gravity example question (2 of 2: Proving Final Result)

Interesting Circle Geometry / Motion Question (1 of 2: Internal Angular Velocities)

Interesting Circle Geometry / Motion Question (2 of 2: External Angular Velocity)

**Newton’s Second Law: Inertial Mass **

**Mechanics Example 1: Using F = ma to find v(t) **

**Mechanics Example 2: Using F = ma to find v(x) **

**Mechanics Example 3: Starting from Displacement Function **

**Mechanics Example 4: Calculating Total Distance of a Multi-Step Journey **

**Introduction to Resisted Motion (1 of 2: What is Resistance?) **

**Introduction to Resisted Motion (2 of 2: Example question) **

**Resistance – should it be kv or mkv? (1 of 3: Introductory thoughts) **

**Resistance – should it be kv or mkv? (2 of 3: Inferring from details in the question) **

**Resistance – should it be kv or mkv? (3 of 3: What to do when it’s ambiguous) **

**Vertical Resistance & Gravity: Framing the Question **

**Mechanics Example 5: Momentum, Terminal Velocity & Total Distance **

**The Inclined Cyclist (2 of 2: Friction & Angle) **

**The Inclined Cyclist (1 of 2: Explanation & Question) **

**Banked Tracks: Example Question **

**Introduction to Banked Tracks (1 of 2: What are they?) **

**Introduction to Banked Tracks (2 of 2: Optimum Speed & Height) **

**Conical Pendulum Inside a Bowl (1 of 2: Setting up the question) **

**Conical Pendulum Inside a Bowl (2 of 2: An unexpected change in tension) **

**Pendulum on Surface of Cone (1 of 2: Tension & Normal Force) **

**Pendulum on Surface of Cone (2 of 2: Determining Maximum Velocity) **

**General Purpose Algorithm for Mechanics Questions **

**The Conical Pendulum (1 of 2: Understanding the Forces) **

**The Conical Pendulum (2 of 2: Determining Tension, Angle & Height) **

**Uniform Circular Motion: Basic Example Question **

**Force Equations for Uniform & Non-Uniform Circular Motion **

**Uniform Circular Motion: Tension & Tensile Strength **

**Uniform Circular Motion: Determining Tangent & Normal Forces **

**Uniform Circular Motion – Direction of Acceleration (1 of 2: Adding Vectors Visually) **

**Uniform Circular Motion – Direction of Acceleration (2 of 2: Force Equations) **

**Introduction to Circular Motion: Angular & Linear Velocity **

**Vertical Resistance & Gravity example question (1 of 2: Finding x(v)) **

**Vertical Resistance & Gravity example question (2 of 2: Proving Final Result) **

**Interesting Circle Geometry / Motion Question (1 of 2: Internal Angular Velocities) **

**Interesting Circle Geometry / Motion Question (2 of 2: External Angular Velocity) **

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