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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
Periodic Trends
Modeling Periodic Trends
Periodic Table Resources
There is another...
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
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
Beyond the Curric
Workshops
Sites v GC
System Modeling
PER
Maths Intros
Calculus Origins
AD ASTRA
Viper Rockets
Collins Physics and More
Internal Structures and Object Models
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