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AP Physics
00 - Pre AP Summer Work
1. Kinematics
COR Bouncing Ball
1.1 Position, Velocity, Acceleration
Bag of Cars
BB in a Tube
Tumble Buggy Bonanza
1.1 - No Time Eq
1.2 Representations of Motion
Motion on a Ramp - AP
Where will they collide?
Kinematic Problem Solving
Due to Gravity - AP
FreeFall
Key to Kine Probs
2d Motion
Shoot the Monkey
Independent Velocities
Tracking a Ball
Golf Ball Flight
2D Problem Solving
Relative Motion
2. Dynamics
Intro to Dynamics
2.2 - Bowling Ball Hockey - AP
Balanced Forces Model
Balanced Forces Labs
Balanced Forces Problem Solving
Balanced Forces Problem Solving - AP
2.4 Newton's First Law
2.5 N3L and FBD's
N1L and N3L SDI - AP
N1L and N3L SDI Pt 2 - AP
2.3 Contact Forces
Friction (µ) - AP
Block on a Ramp Scenarios
Pull Back Cars Redux
Balanced Contact Forces
2.1 Systems
Internal Structures and Object Models
Center of Mass of a System
2.2 Gravitational Field
2.6 N2L
Unbalanced Forces Model - AP
Variations on a Theme
Block on a Ramp Scenarios - AP
Unbalanced Forces ProbSolv - AP
2.7 Apps of N2L
Air Resistance
2.8 Spring Forces
Hooke's Law - Springs
02.3c - Elastic Potential Energy
4. Energy
4.1 - Stores and Transfers
4.1 Open and Closed Systems
4.1 - Open Systems
4.1 - LCE Model
Kiss the Egg
Zip Line Physics
4.3b Work Energy Principle
4.3c Power / Efficiency
Power Lab
4.4 - What's your mass Poppa?
5. Momentum
5.1 Momentum and Impluse
5.1a - Momentum Background
5.2 Changes in Momentum
5.3 Open and Closed Systems - Momentum
5.3b - Collisions - AP
Explosions and CM
5.4 Cons of Linear Momentum
2D Collisions
6. Simple Harmonic Motion
6.1.1 - SHM Defined
6.2 Period of SHM
6.1.1 - SHM - Pendulum
6.1.2 - SHM - MOS
6.3 - SHM Representations
6.4 Energy of SHM
3. Circ Motion and Grav Fields
3.6 - Centripetal Acceleration and Force
Flying Pigs Practical
3.6.2 - Vertical Circles
3.3 Grav and Electric Forces
3.3a - Newton's Law of Gravitation
3.3b - Escape Velocity
3.4 Grav Fields
3.5 Inertial v. Gravitational Mass
3.7 Apps of Circ Motion / Gravitation
7. Torque and Rotational Mechs
7.1 Rotational Mechanics
7.2 Torque and Angular Acceleration
7.2a - Rotational Inertia
7.2b - N2L Combined Motion
7.5 Rotational Kinetic Energy
7.4 Cons of Angular Momentum
7.4a - Collisions and Rotations
8 - Fluids
8.1 - Density and Buoyant Forces
8.2 - Pressure
8.3 - Flow Rate
8.4 - Bernoulli's Principle
8.4a - Torricelli's Theorem
Exam Prep
Experimental Design
QQT - FRQ
PASA - FRQ
Short Answer - FRQ
Mousetrap Mobile Mania
HL Chemistry
0.0 - General Info
00 - Pre IB Summer Work
S1 - Particulate Model of Matter
S1.1 - Particulate Nature of Matter
S0.1.1 - Lab Skills
S1.1.1 - Separation Techniques
S1.1.2 - Kinetic Molecular Theory
S1.2 - Nuclear Atom
S1.2.1 - The Atom
S1.2.2 - Mass Spectrometry
1.2.3 - Relative Atomic Mass
S1.3 - Electron Configuration
1.3.1 - Atomic Spectra
Periodic Table Resources
Periodic Trends
There is another...
S1.4 - Counting Particles: Mole
S1.4.2 - Balancing Chem Eqs
S1.5 - Ideal Gases
S2 - Models of Bonding
S3 - Classification of Matter
R1 - What Drives Chem Rxn?
R2 - How Much, How Fast, How Far?
R3 - Mech of Chemical Change
NGSS - 9
PS 2.x - Physics of Collisions
PS3.0 - Exploring Motion
Bag of Cars - Sci9
Bouncing Carts
PS2.1 - Acceleration Defined
PS2.1 - Forces and N2L
PS2.1 - Bowling Ball Hockey
PS2.1 - Forces and Acceleration
Change the Game
PS2.1 - Free Body Diagrams
N2L Comparision
PS2.1 - Forces, Work and Energy
PS2.1 - F=mg
PS2.1 - FreeFall
PS3.2 - Energy Conservation
PS3.2a - Energy Stores
PS2.x - Defining a System
PS3.2 - Measuring Energy
PS2.3 - Energy Pie Charts
PS3.2 - Olympic Energy
PS2.2 - Cons of Momentum
PS2.2a - Momentum Background
2.24 - Collisions
PS2.3 - Protect Yourself
Pugh Charts
2.3 - Momentum / Impulse Background
ESS 2.x Climate Science
Climate Science Project
How to change someone's mind...
The Greenhouse Effect
Effects and Feedback Loops
3.5 - Climate Data
Reading Climate Data
3.4 - Climate Data
2.4 - Earth's Energy Balance
Modeling Earth's Energy
Natural vs. Anthropogenic
2.6 - Carbon Cycling
Carbon Cycling
Carbon Cycle Quantified
Ocean Acidification
CO_2 Mitigation
PS 1.x - Chemistry
IMF Bridge
1.0 Patterns in Matter
Building Atoms
Setting the Table
Modeling Periodic Trends
Bonding Patterns
Bond Types
AI Response to Elements and Electrons
1.2 - Chem Rxns
1.2x - Home Rxns
1.2a - Balancing Eqs
1.2b - Rxn Questions
PS1.3 - Intermolecular Forces
IMF - Properties of Liquids
IMF - Polarity
IMF - Theory
IMF - Experimentation
LS1.1 Molecules of Life
LS1.1 - Central Dogma
LS1.1a - DNA Structure
LS1.1b - Proteins
LS1.1c - Mutations
LS1.2 - Organization
LS1.2 - Muscle Fatigue
LS1.2 - Circulatory System
LS1.2 - Respiratory System
LS1.2 - Gas Exchange
LS1.2 - Yeast Respiration
LS1.2 - Inside a Cell
LS1.3a Homeostatis
LS1.3a - +/- Feedback
LS1.3b - Homeostasis Experimentation
LS1.3c Human Reaction Time
Heart Rate - Experimentation
LS 1.7 - Cellular Respiration
DP Physics - Y1
00 - Base Info
00.1 - Class Mechanics
00.5 - Studying Physics
00.3 - IB Command Terms
01 - Measurements
01.1 - Measurements in Physics
Eq Creation
Graphical Analysis
01.2 - Uncertainties and Error
01.3 - Vectors and Scalars
02 - Mechanics
02.3 - Work, Energy and Power
02.3a - Stores and Transfers
02.3e - Work Done on System
02.3b - Energy Model
WEP Investigation
02.3d - Efficiency of Systems
02.3f - Power
Energy Problem Solving
08.1 - Energy Sources
Energy Sources Intro
Energy Sources
Energy Density
02.3g - Why Start With Energy?
02.2 - Forces
Free Body Diagramming
N1L and N3L SDI
N1L and N3L SDI Pt 2
Free Body Diagramming
2.2 - Bowling Ball Hockey
Reasoning w/FBD's
Reasoning w/FBD's: Spring Scale Reading
Reasoning w/FBD's: Who's Pulling Whom?
Reasoning w/FBD's: Falling Slinky
Reasoning w/FBD's: Launched Marbles
Unbalanced Forces Model
Unbalanced Forces Model
Friction (µ)
Unbalanced Forces Practica
Unbalanced Forces ProbSolv
Block on a Ramp Scenarios - IB
06.2 - Newton's Law of Gravitation
10 - Fields (HL)
10.1 - Describing Fields
FreeFall
02.1 - Kinematics
BB in a Tube
Change in Position
Constant Velocity Model
CVPM Creation
Tumble Buggy Bonanza
Kine Lab Practical
Uniform Acceleration
Motion on a Ramp
SUVAT Problem Solving
Kinematics in Reality
Due to Gravity
It came from above...
SUVAT Graphing
Motion in Action
02.4 - Momentum and Impulse
2.4a - Momentum Background
02.4b - Impulse
2.4c - Collisions
02.4a - Momentum Model
02.4c - Collisions
02.4d- Momentum Practical
Summative Practicals
06 Circ Motion
06.1 - Circular Motion
06.2a - Orbital Mechanics
10.2b - Escape Velocity
10.2 - Fields at Work
03 - Thermal
08.2 - Thermal Energy Transfer
08.2a - Thermal Transfer
08.2b - Solar Radiation
03.1 - Thermal Concepts
Calorimetry Lab
Latent Heat
08.2c - Earth's Energy Balance
03.2 - Modeling a Gas
Gas Experiments
B.H.G.P.
03.2 Resources
03.2b - Kinetic Energy of a Gas
04 - Waves
04.0 - Waves Overview
04.1 - Oscillations
09.1 - SMH
SHM - MOS
SHM - Pendulum
04.2 - Traveling Waves
04.3 - Wave Characteristics
Light Intensity
Polarisation
Superposition
Desmos Waves
04.4 - Wave Behavior
Reflection
Refraction
Diffraction
04.5 - Standing Waves
09 - Wave Phenom (HL)
09.2 - Single Slit Diffration
09.3 - Interference
09.3b - Thin Film Interference
09.4 - Resolution
Resolving Power of the Eye
09.5 - Doppler Effect
08 - Energy Prod
DP Physics - Y2
05 - E & M
05.2 – Heating effect of electric currents
What is happening in the Wires?
Ohm's Law
Resistors
Circuit Measurements
Potential Dividers
Kirchhoff's Laws
05.3 - Electric Cells
Internal Resistance
11.3 – Capacitance
5.1 / 11.3 - Mechanical Voltage Source
11.3a - RC Circuits
13b - Capacitors
05.1 - Electric Fields
05.13 - Field in a Bucket
Field Configurations
05.11 - Creating a Field
05.11a - Electric Fields Quantified
05.12 - Coulomb's Law Apparatus
5.14 - Cathode Ray Tubes
05.4 - Magnetic Effects
05.4a - Mag Fields
5.41 - Earth's Magnetic Field
05.4aa - Mass Spectrometers
05.4b - Bubble Chambers
11 - ElectroMag (HL)
11.1 - Electromagnetic Induction
11.1a - Faraday's Law
11.1b - Lenz's Law
11.1c - Energy Conservation
11.2 – Power generation
11.2 - AC Current Generation
11.2 - Transformers
11.2 - Rectification
07 - Atomic
Supercolliders
KEKB - Belle II
07.1 – Discrete energy and radioactivity
Early Atomic Models
Discovery of the Nucleus
Radioactivity: Background
Radioactive Decay
Half-life
07.2 – Nuclear reactions
Nuclear Power
12.2a - Nucleus
12.2b - Radioactive Decay
Fission and Fusion
12.2 – Nuclear physics
07.3 – The structure of matter
Particles - Subatomic
Particle Games
Conservation Laws of P.P.
Forces of Nature
Feynman Diagrams
12 - Quantum (HL)
12.1 – The interaction of matter with radiation
12.1a - Photoelectric Effect
12.1b - Planck's Constant
12.1c - Electron Diffraction
12.1d - Wave Function
D - Astrophysics
D.1 – Stellar quantities
D.1b - Luminosity and Brightness
D.2.1: Stellar Spectra
D.1a - Parallax
D.2 – Stellar characteristics
D.2.2 - H-R Diagram
D2.2.1 - Mass Luminosity Relationship
D.2.3: Variable Stars
Variable Star Data
D.2.4: Stellar Evolution
Life Span of Stars
D.4 – Stellar processes (HL)
D.3 – Cosmology
D.3.0 - The Cosmological Principle
D.5.2 - The Expanding Universe
D.3.1: Big Bang Theory
What does Universe expand into?
D.3.3 - Cosmic Background Radiation
D.3.4 - Density of the Universe
D.3.5 - Where do we go from here?
Exam Prep
Topic Maps
IA Work
Graphical Analysis Resources
D.R.A.C.
Graph Linearization
Beyond the Curric
Workshops
Sites v GC
System Modeling
PER
Maths Intros
Calculus Origins
AD ASTRA
Viper Rockets
Collins Physics and More
S2 - Models of Bonding
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