Freaky Physics for the IB Diploma Programme → A.4 Part 13: Angular Momentum and Angular Kinetic Energy (Rigid-Body Mechanics) - Freaky Physics

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IBDP Physics

Freaky Physics for the IB Diploma Programme

Curriculum

24 Sections
46 Lessons
60 Weeks

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Topic A.0: Skills in the study of physics
11
- 1.1
  Basic Algebra Recap
  15 Minutes
- 1.2
  Basic Geometry Recap
- 1.3
  Estimation, Mean, and Range
- 1.4
  SI Units Recap
  15 Minutes
- 1.5
  Rates of Change
- 1.6
  Orders of Magnitude
- 1.7
  Dimensional Analysis
- 1.8
  Vector Algebra
- 1.9
  Uncertainties and Errors
  15 Minutes
- 1.10
  Graphing Data
  20 Minutes
- 1.11
  Discrete and Continuous Variables, and the Misuse of Statistical Methods
Topic A.1: Kinematics
4
- 2.1
  A.1 Part 1: Kinematic Equations for Moving in a Line
- 2.2
  A.1 Part 2: One-dimensional Motion
- 2.3
  A.1 Part 3: Two-dimensional Motion
- 2.4
  A.1 Part 4: Effects of Resistive Forces
Topic A.2: Forces and Momentum for Linear Motion
9
- 3.1
  A.2 Part 1: Types of Forces
- 3.2
  A.2 Part 2: Newton’s First Law of Motion
- 3.3
  A.2 Part 3: Newton’s Second Law of Motion
- 3.4
  A.2 Part 4: The Dynamics of the Inclined Plane
- 3.5
  A.2 Part 5: Momentum and Forces
- 3.6
  A.2 Part 6: Newton’s Third Law of Motion
- 3.7
  A.2 Part 7: Conservation of Momentum – Two-Dimensional Motion
- 3.8
  A.2 Part 8: Conservation of Momentum – One-Dimensional Motion
- 3.9
  A.2 Part 9: Conservation of Momentum – Explosions
Topic A.3: Work Done, Energy, and Power
6
- 4.1
  A.3 Part 1: Work Done
- 4.2
  A.3 Part 3: Work Done Against Resistive Forces
- 4.3
  A.3 Part 2: Work-Energy Theorem
- 4.4
  A.3 Part 4: Efficiency and Sankey Diagrams
- 4.5
  A.3 Part 5: Power as Rate of Work Done
- 4.6
  A.3 Part 6: Power and Velocity
Topic A.2 and A.4: Forces and Momentum for Motion in Circles
4
- 5.1
  A.2 Part 10: Kinematics of Circular Motion
- 5.2
  A.2 Part 11: Constant Angular Velocities and Centripetal Forces
- 5.3
  A.4 Part 12: Constant Angular Acceleration and Torques (Rigid-Body Mechanics)
- 5.4
  A.4 Part 13: Angular Momentum and Angular Kinetic Energy (Rigid-Body Mechanics)
Topic A.5: Relativity
12
- 6.1
  A.5 Part 1: Galilean Relativity – Relative Speeds
- 6.2
  A.5 Part 2: Galilean Relativity – Reference Frames and Transformations (Including Graphs)
- 6.3
  A.5 Part 3: Galilean Relativity and the Speed of Light
- 6.4
  A.5 Part 4: Einstein’s Realizations and Special Relativity Postulates
- 6.5
  A.5 Part 6: Time Dilation, Lorentz Factor, and Proper Time
- 6.6
  A.5 Part 7: Velocity Addition in Special Relativity
- 6.7
  A.5 Part 8: Relativity of Simultaneity
- 6.8
  A.5 Part 9: Length Contraction and Proper Length
- 6.9
  A.5 Part 10: The Space-Time Diagrams and Worldlines
- 6.10
  A.5 Part 11: The Space-Time Interval
- 6.11
  A.5 Part 12: Real-world Evidence of Special Relativity
- 6.12
  A.5 Part 13: A Brief Introduction to General Relativity
Topic B.1: Thermal Energy Transfer
0
Topic B.2: The Greenhouse Effect
0
Topic B.3: Gas Laws
0
Topic B.4: Thermodynamics
0
Topic B.5: Circuits and Current
0
Topic C.1: Simple Harmonic Motion
0
Topic C.2: Wave model
0
Topic C.3: Wave Phenomena
0
Topic C.4: Standing Waves and Resonance
0
Topic C.5: Doppler Effect
0
Topic D.1: Gravitational field
0
Topic D.2: Electric and Magnetic Fields
0
Topic D.3: Motion in Electromagnetic Fields
0
Topic D.4: Induction
0
Topic E.1: Structure of the Atom
0
Toipc E.2: Quantum Physics
0
Topic E.3: Radioactive Decay
0
Topics E.4 and E.5: Fission, Fusion and Stars
0

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A.4 Part 12: Constant Angular Acceleration and Torques (Rigid-Body Mechanics)

A.5 Part 1: Galilean Relativity – Relative Speeds

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