Week 8 Reflectionguided Reading 101

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  1. Guided Reflection Examples
  2. Week 8 Reflectionguided Reading 101 Answers
  3. Week 8 Reflectionguided Reading 101 Dalmatians
Week 8 reflectionguided reading 101 readingWeek 8 reflectionguided reading 101 lesson

Guided Reflection Examples

Week 8 Reflectionguided Reading 101Reflection

Week 8 Reflectionguided Reading 101 Answers

Reading files.
LESSON #LESSON TITLESREADINGS
0Vectors
Week 1: Kinematics
11D Kinematics - Position and Velocity
  • Position and Displacement: Chapter 4.2 (PDF - 1.1MB)
  • Velocity: Chapter 4.3 (PDF - 1.5MB)
21D Kinematics - Acceleration
  • Acceleration: Chapter 4.4 (PDF)
  • Constant Acceleration: Chapter 4.5 (PDF - 1.7MB)
  • 1D Kinematics and Integration: Chapter 4.6 (PDF - 2.4MB)
32D Kinematics - Position, Velocity, and Acceleration
  • Vector Description of Motion in 2D: Chapter 5.1 (PDF)
  • Projectile Motion: Chapter 5.2 (PDF - 2.7MB)
Week 2: Newton's Laws
4Newton's Laws of Motion
  • Newton's Laws of Motion: Chapter 7.1–7.3 (PDF)
5Gravity
  • Force Laws: Chapter 8.1 (PDF - 1.4MB)
  • Free Body Diagrams: Chapter 8.4 (PDF)
6Contact Forces
  • Force Laws: Chapter 8.1 (PDF - 1.4MB)
  • Constraint Forces: Chapter 8.3 (PDF - 1.2MB)
  • Free Body Diagrams: Chapter 8.4 (PDF)
7Tension and Springs
  • Force Laws: Chapter 8.1 (PDF - 1.4MB)
  • Constraint Forces: Chapter 8.3 (PDF - 1.2MB)
  • Free Body Diagrams: Chapter 8.4 (PDF)
Deep Dive 1FrictionNo Reading
Week 3: Circular Motion
8Circular Motion - Position and Velocity
  • Circular Motion, Velocity and Angular velocity: Chapter 6.2 (PDF - 1.5MB)
9Uniform Circular Motion
  • Tangential and Radial Acceleration: Chapter 6.3 (PDF - 1.1MB)
  • Period and Frequency of Uniform Circular Motion: Chapter 6.4 (PDF)
10Circular Motion - Acceleration
  • Tangential and Radial Acceleration: Chapter 6.3 (PDF - 1.1MB)
  • Angular Velocity and Angular Acceleration: Chapter 6.5 (PDF - 1.9MB)
11Newton's 2nd Law and Circular Motion
  • Universal Law of Gravitation: Chapter 9.2 (PDF)
  • Worked Examples Circular Motion: Chapter 9.3 (PDF - 1.4MB)
Week 4: Drag Forces, Constraints and Continuous Systems
12Pulleys and Constraints
  • Worked Example on Pulleys and Ropes Constraints Conditions: Chapter 8 (PDF - 6.3MB), Example 8.9 (PDF - 1.2MB)
13Massive Rope
  • Worked examples on massive ropes: Chapter 8 (PDF - 6.3MB), Examples 8.3–8.4 (PDF - 1.3MB)
  • Continuous Systems and Newton's Second Law as a Differential Equations: Chapter 8.5.2 (PDF)
  • Worked Example-Capstan: Chapter 8 (PDF - 6.3MB), Example 8.11 (PDF)
14Resistive Forces
  • Drag forces in Fluids: Chapter 8.6 (PDF - 1.6MB)
  • Worked Example - Free Fall with Air Drag: Chapter 8 (PDF - 6.3MB), Example 8.12 (PDF)
Week 5: Momentum and Impulse
15Momentum and Impulse
  • Momentum and Impulse: Chapter 10.2 (PDF)
  • External and Internal Forces and the Change in Momentum of a System: Chapter 10.3 (PDF)
  • System of Particle: Chapter 10.4 (PDF)
16Conservation of Momentum
  • Constancy of Momentum and Isolated Systems: Chapter 10.7 (PDF)
  • Momentum Changes and Non-Isolated Systems: Chapter 10.8 (PDF)
  • Solved Examples: Chapter 10.9 (PDF - 1.7MB) and Chapter 10 (PDF - 2.8MB), Example 10.6 (PDF)
17Center of Mass and Motion of the Center of Mass
  • Center of Mass: Chapter 10.5 (PDF - 1.3MB)
  • Translational Motion of the Center of Mass: Chapter 10.6 (PDF)
  • Solved Example: Chapter 10 (PDF - 2.8MB), Example 10.5 (PDF)
Week 6: Continuous Mass Transfer
18Relative Velocity and Recoil
  • Reference Frames: Chapter 11.1–11.4 (PDF - 1.8MB)
19Continuous Mass Transfer
  • Momentum and the Flow of Mass: Chapter 12.1–12.3 (PDF - 3.0MB)
Week 7: Kinetic Energy and Work
20Kinetic Energy and Work in 1D
  • The Concept of Energy and Conservation of Energy: Chapter 13.1 (PDF)
  • Kinetic Energy: Chapter 13.2–13.3 (PDF)
  • Work: Chapter 13.4–13.5 (PDF - 1.4MB)
  • Work Kinetic Energy Theorem: Chapter 13.6 (PDF)
  • Power: Chapter 13.7 (PDF)
  • Worked Examples: Chapter 13.10 (PDF)
21Kinetic Energy and Work in 2D and 3D
  • Work and Scalar Product: Chapter 13.8 (PDF - 1.2MB)
  • Work Done by a Non-constant Force Along an Arbitrary Path: Chapter 13.9 (PDF)
  • Worked Examples: Chapter 13.10 (PDF)
  • Work Kinetic Energy Theorem in 3D: Chapter 13.11 (PDF)
22Conservative and Non-conservative Forces
  • Conservation of Energy: Chapter 14.1 (PDF)
  • Conservative and Non-conservative Forces: Chapter 14.2 (PDF)
Week 8: Potential Energy and Energy Conservation
23Potential Energy
  • Changes in Potential Energy of a System: Chapter 14.3 (PDF)
  • Changes in Potential Energy and Zero Point of Potential Energy: Chapter 14.4 (PDF)
24Conservation of Energy
  • Mechanical Energy and Conservation of Mechanical Energy: Chapter 14.5 (PDF)
  • Change of Mechanical Energy for Closed System with Internal Non-conservative Forces: Chapter 14.7 (PDF)
  • Dissipative Forces: Friction: Chapter 14.8 (PDF)
  • Worked Examples: Chapter 14.9 (PDF - 2.0MB)
25Potential Energy Diagrams
  • Spring Force Energy Diagrams: Chapter 14.6 (PDF)
Week 9: Collision Theory
26Types of Collision
  • Collision Theory: Chapter 15 (PDF - 3.5MB)
27Elastic Collisions
  • Collision Theory: Chapter 15 (PDF - 3.5MB)
Deep Dive 2Center of Mass Reference FrameNo Reading
Week 10: Rotational Motion
28Motion of a Rigid Body
  • Two dimensional Rotational Kinematics: Chapter 16.1–16.2 (PDF)
29Moment of Inertia
  • Two dimensional Rotational Kinematics: Chapter 16.3–16.4 (PDF - 1.8MB)
30Torque
  • Two dimensional Rotational Dynamics: Chapter 17.1–17.3 (PDF - 1.9MB)
  • Static Equilibrium: Chapter 18 (PDF - 2.0MB)
31Rotational Dynamics
  • Two dimensional Rotational Dynamics: Chapter 17.4–17.5 (PDF - 2.4MB)
  • Static Equilibrium: Chapter 18 (PDF- 2.0MB)
Week 11: Angular Momentum
32Angular Momentum of a Point Particle
  • Angular Momentum: Chapter 19.1–19.2 (PDF- 2.0MB)
33Angular Momentum of a Rigid Body about a Fixed Axis
  • Angular Momentum: Chapter 19.6–19.7 (PDF - 2.4MB)
34Torque and Angular Impulse
  • Angular Momentum: Chapter 19.3–19.5 (PDF - 1.2MB), Chapter 19.8–19.9 (PDF - 1.6MB)
Week 12: Rotations and Translation - Rolling
35Rolling Kinematics
  • Kinematics of translation and rotation: Chapter 20 (PDF - 3.2MB)
36Rolling Dynamics
  • Dynamics of translation and rotation: Chapter 21 (PDF - 4.1MB)
37Rolling Kinetic Energy and Angular Momentum
  • Kinematics of translation and rotation: Chapter 20 (PDF - 3.2MB)
  • Dynamics of translation and rotation: Chapter 21 (PDF - 4.1MB)
Deep Dive 3GyroscopesNo Reading

Week 8 Reflectionguided Reading 101 Dalmatians

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