Online help sessions have not worked out in the past. It seems to work better to meet in the resource center and answer questions over email. The online discussion board is useful, though. Give this a try. The link is on the homepage in Moodle.
- Introduction
- Lecture 01
- Lecture 02
- Lecture 03
- Lecture 3, Part 1: Introduction
- Lecture 3, Part 2: Where Were We
- Lecture 3, Part 3: Vector Components in Detail
- Lecture 3, Part 4: Scalar Component Description
- Lecture 3, Part 5: Example of Finding Scalar Components
- Lecture 3, Part 6: Scalar Component Addition
- Lecture 3, Part 7: Scalar Addition Example
- Lecture 3, Part 8: Motion Diagrams
- Lecture 04
- Lecture 05
- Lecture 5, Part 01: Introduction
- Lecture 5, Part 02: Where Were We
- Lecture 5, Part 03: Big Picture: 1D Kinematics
- Lecture 5, Part 04: Kinematic Problem Solving Steps
- Lecture 5, Part 05: Example 1
- Lecture 5, Part 06: Example 2
- Lecture 5, Part 07: Example 3
- Lecture 5, Part 08: Free Fall
- Lecture 5, Part 09: Free Fall and Kinematic Equations
- Lecture 5, Part 10: Example 4
- Lecture 5, Part 11: Example 5
- Lecture 06
- Lecture 07
- Lecture 08
- Lecture 09
- Lecture 10
- Lecture 11
- Lecture 11, Part 1: Introduction
- Lecture 11, Part 2: Where Were We
- Lecture 11, Part 3: Free Body Diagram and Vector Nature of Newton’s 2nd Law
- Lecture 11, Part 4: Common Forces: Weight
- Lecture 11, Part 5: Common Forces: Tension
- Lecture 11, Part 6: Common Forces: Normal Force
- Lecture 11, Part 7: Common Forces: Friction
- Lecture 11, Part 8: Problem Solving Steps
- Lecture 11, Part 9: Example
- Lecture 12
- Lecture 13
- Lecture 13, Part 1: Introduction and Where Were We?
- Lecture 13, Part 2: Why/When Do We Need Newton’s Third Law?
- Lecture 13, Part 3: Newton’s 3rd Law
- Lecture 13, Part 4: Changes To Our Problem-Solving Steps
- Lecture 13, Part 5: Example 1
- Lecture 13, Part 6: Ropes and Pulleys
- Lecture 13, Part 7: Example 2
- Lecture 13, Part 8: Your Turn
- Lecture 14
- Lecture 14, Part 01: Introduction
- Lecture 14, Part 02: Where Were We ?
- Lecture 14, Part 03: Uniform Circular Motion: What You Need To Know
- Lecture 14, Part 04: Example 1
- Lecture 14, Part 05: Example 2
- Lecture 14, Part 06: Example 3
- Lecture 14, Part 07: Optional Roller Coaster Example
- Lecture 14, Part 08: Satellite Example
- Lecture 14, Part 09: The Universal Law of Gravitation
- Lecture 14, Part 10: Satellite Example Continued
- Lecture 15
- Lecture 15, Part 1: Introduction and Where Were We?
- Lecture 15, Part 2: Energy Conservation: The Basics
- Lecture 15, Part 3: How Do You Calculate the Net Work?
- Lecture 15, Part 4: New Problem Solving Steps
- Lecture 15, Part 5: Example 1
- Lecture 15, Part 6: Example 2
- Lecture 15, Part 7: Last Example
- Lecture 15, Part 8: Final Quiz Questions…
- Lecture 16
- Lecture 16, Part 1: Introduction and Where Were We?
- Lecture 16, Part 2: Defining Our New “Energy Conservation Starting Equation”
- Lecture 16, Part 3: Defining Mechanical Energy
- Lecture 16, Part 4: New Problem Solving Steps
- Lecture 16, Part 5: First Example
- Lecture 16, Part 6: Second Example
- Lecture 16, Part 7: Last Example
- Lecture 16, Part 8: Redo Example From Last Lecture
- Lecture 17
- Lecture 18
- Lecture 19
- Lecture 20
- Lecture 21
- Lecture 22
- Lecture 22, Part 1: Introduction and Where Were We?
- Lecture 22, Part 2: A Net Torque Causes Angular Acceleration
- Lecture 22, Part 3: Torque Example
- Lecture 22, Part 4: Equilibrium Example
- Lecture 22, Part 5: Moment of Inertia
- Lecture 22, Part 6: Non-Equilibrium Example
- Lecture 22, Part 7: Another Example
- Lecture 23
- Lecture 24
- Lecture 25