Video Lecture #2 Introductory Conservation of Momentum Problem using Unit Vectors

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1 AP Physics C Video Lecture Notes Chapter Thank You, Emily Rencsok, for these notes. Video Lecture #1 Introduction to Momentum and Derivation of Conservation of Momentum Video Lecture #2 Introductory Conservation of Momentum Problem using Unit Vectors AP Physics C Flipped Lecture Notes Chapter All of Them.doc 1 of 19

2 Video Lecture #3 Derivation of Impulse using an Integral and Impulse Approximation AP Physics C Flipped Lecture Notes Chapter All of Them.doc 2 of 19

3 Video Lecture #4 Introduction to the Indefinite Integral and Deriving two UAM Equations AP Physics C Flipped Lecture Notes Chapter All of Them.doc 3 of 19

4 Video Lecture #5 (Part 1 of 3) Dropping a Racket Ball on a Force Sensor - Demonstrating the Power of Calculus Video Lecture #6 (Part 2 of 3) Dropping a Racket Ball on a Force Sensor - Demonstrating the Power of Calculus AP Physics C Flipped Lecture Notes Chapter All of Them.doc 4 of 19

5 Video Lecture #7 (Part 3 of 3) Dropping a Racket Ball on a Force Sensor - Demonstrating the Power of Calculus AP Physics C Flipped Lecture Notes Chapter All of Them.doc 5 of 19

6 Video Lecture #8 Introduction to Elastic, Inelastic and Perfectly Inelastic Collisions AP Physics C Flipped Lecture Notes Chapter All of Them.doc 6 of 19

7 Video Lecture #9 A Ballistic Pendulum Problem - A Classic Example Video Lecture #10 Introduction to Center of Mass of a System of Particles with Example Problem AP Physics C Flipped Lecture Notes Chapter All of Them.doc 7 of 19

8 Video Lecture #11 Introductory Example Problem - Center of Mass of an Rigid Object with Shape using an Integral AP Physics C Flipped Lecture Notes Chapter All of Them.doc 8 of 19

9 AP Physics C Flipped Lecture Notes Chapter All of Them.doc 9 of 19

10 Video Lecture #12 Problem - Finding the Center of Mass of a Rigid Object with Shape with a Non-Constant Density AP Physics C Flipped Lecture Notes Chapter All of Them.doc 10 of 19

11 Video Lecture #13 Introduction to Velocity and Acceleration of a System of Particles Video Lecture #14 An Introductory Review of Circular Motion and Deriving Tangential Velocity and Acceleration AP Physics C Flipped Lecture Notes Chapter All of Them.doc 11 of 19

12 Video Lecture #15 Deriving Rotational Kinetic Energy and Moment of Inertia with Example Problem Video Lecture #16 Deriving the Moment of Inertia of a Uniform Thin Hoop about its Center of Mass AP Physics C Flipped Lecture Notes Chapter All of Them.doc 12 of 19

13 Video Lecture #17 Deriving the Moment of Inertia of a Uniform Thin Rod about its Center of Mass and End AP Physics C Flipped Lecture Notes Chapter All of Them.doc 13 of 19

14 Video Lecture #18 Deriving the Moment of Inertia of a Uniform Cylinder about its Long Cylindrical Axis Video Lecture #19 A Statement about Moment of Inertia Memorization for the AP Physics C Test (no lecture notes) Video Lecture #20 Introduction to the Parallel Axis Theorem with an Example Problem AP Physics C Flipped Lecture Notes Chapter All of Them.doc 14 of 19

15 Video Lecture #21 Introduction to Torque and The Rotational form of Newton s 2nd Law AP Physics C Flipped Lecture Notes Chapter All of Them.doc 15 of 19

16 Video Lecture #22 Problem - Finding Tension and Acceleration of Two Masses on a Pulley using Net Torque AP Physics C Flipped Lecture Notes Chapter All of Them.doc 16 of 19

17 Video Lecture #23 Comparing Linear and Rotational Variables Video Lecture #24 Problem - Finding Acceleration of Two Masses on a Pulley using Conservation of Energy AP Physics C Flipped Lecture Notes Chapter All of Them.doc 17 of 19

18 Video Lecture #25 Introduction to Rolling Without Slipping Video Lecture #26 Finding the Acceleration of a Solid Sphere Rolling Without Slipping Down An Incline AP Physics C Flipped Lecture Notes Chapter All of Them.doc 18 of 19

19 Video Lecture #27 Review: Momentum, Center of Mass, Moment of Inertia, Net Torque AP Physics C Flipped Lecture Notes Chapter All of Them.doc 19 of 19

2007 Problem Topic Comment 1 Kinematics Position-time equation Kinematics 7 2 Kinematics Velocity-time graph Dynamics 6 3 Kinematics Average velocity

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