Cable's Science
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Physics
Physics Homepage
Unit 1: Modeling Our Universe
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Lesson 1: Science
Lesson 2: Observation
Lesson 3: Scientific Inquiry
Lesson 4: Graphical Analysis
Lesson 5: Linearizing
Unit 2: Math Skills
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Lesson 1: Algebra
Lesson 2: Scientific Notation
Lesson 3: Measurement
Lesson 4: Dimensional Analysis
Lesson 5: Significant Figures
Lesson 6: Geometry
Unit 3: Mechanical Equilibrium
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Lesson 1: Force
Lesson 2: Net Force
Lesson 3: Mechanical Equilibrium
Lesson 4: Graphical Vector Calculation
Lesson 5: Analytic Vector Calculation
Lesson 6: Statics
Unit 4: Motion
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Lesson 1: Newton's 1st Law
Lesson 2: Constant Velocity Model
Lesson 3: Using the Constant Velocity Model
Lesson 4: Uniform Acceleration Model
Lesson 5: Using the Uniform Acceleration Model
Unit 5: Acceleration due to Gravity
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Lesson 1: Acceleration due to Gravity
Lesson 2: How Fast, How Far, How Long?
Lesson 3: 2D Velocity
Lesson 4: Projectile Motion
Lesson 5: Rocket Science
Unit 6: Newton's Laws
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Lesson 1: Constant Force Model
Lesson 2: Using the Constant Force Model
Lesson 3: Friction
Lesson 4: Terminal Velocity
Lesson 5: Free-Fall Explained
Lesson 6: Inclined Planes
Lesson 7: Newton's 3rd Law
Lesson 8: Systems
Lesson 9: Two-Body Problems
Unit 7: Energy
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Lesson 1: Work & Energy
Lesson 2: Conservation of Energy Model
Lesson 3: Using the Conservation of Energy Model
Lesson 4: Power
Lesson 5: Machines
Lesson 6: Energy Chains
Lesson 7: Energy Sources
Unit 8: Momentum
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Lesson 1: Momentum & Impulse
Lesson 2: Conservation of Momentum Model
Lesson 3: Using the Conservation of Momentum Model
Lesson 4: Momentum & Energy
Final
IB Physics SL
IB Physics Homepage
Unit 1: Circular & Rotational Motion
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Unit 0: Mechanics Review
Unit 0: Uncertainties & Errors
Lesson 1: Circular Motion
Lesson 2: Centripetal Force
Lesson 3: Roller Coaster Physics
Lesson 4: Torque
Lesson 5: Center of Gravity
Lesson 6: Rotation
Unit 2: Gravitation
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Lesson 1: Universal Gravitation
Lesson 2: Gravitational Fields
Lesson 3: Satellite Motion
Lesson 4: Special Relativity
Lesson 5: General Relativity
Unit 3: Waves
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Lesson 1: Oscillations
Lesson 2: Traveling Waves
Lesson 3: Wave Characteristics
Lesson 4: Wave Behavior
Lesson 5: Standing Waves
Unit 4: Thermal Physics
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Lesson 1: Temperature
Lesson 2: Heating
Lesson 3: The Gas Laws
Lesson 4: Kinetic Molecular Model
Lesson 5: 1st Law of Thermodynamics
Lesson 6: The 2nd Law of Thermodynamics
Unit 5: Static Electricity
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Lesson 1: Structure of Matter
Lesson 2: Charging
Lesson 3: Electric Force
Lesson 4: Electric Fields
Unit 6: Current Electricity
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Lesson 1: Electric Current
Lesson 2: Electric Resistance
Lesson 3: Circuits
Lesson 4: More Complex Circuits
Lesson 5: Electric Cells
Lesson 6: Magnetic Fields
Unit 7: Atomic, Nuclear, and Particle Physics
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Lesson 1: Quantized Matter
Lesson 2: Quantized Energy
Lesson 3: Nuclear Decay
Lesson 4: Nuclear Reactions
Lesson 5: Fundamental Particles
Unit 8: Energy Production
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Lesson 1: Energy Forms
Lesson 2: Energy Sources
Lesson 3: Energy Balance of Earth
Chemistry
Chemistry Homepage
Unit 1: Introduction to Chemistry
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Lesson 1: Intro to Chemistry
Lesson 2: Properties & Changes of Matter
Lesson 3: Classifying Matter
Lesson 4: Scientific Notation
Lesson 5: SI Units & Metric Conversions
Lesson 6: Non-metric Conversions (DA)
Lesson 7: Significant Figures
Unit 2: Atomic Theory
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Lesson 1: Atoms
Lesson 2: Atomic Mass
Lesson 3: History of the Atomic Model
Lesson 4: Atomic Model - Bohr
Lesson 5: Atomic Model - Quantum
Lesson 6: Noble Gas Notation
Lesson 7: Nuclear Chemistry
Lesson 8: Particle Physics
Unit 3: Periodicity
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Lesson 1: Exploring the PT
Lesson 2: History of the PT
Lesson 3: Using the PT
Lesson 4: Periodic Trends
Unit 4: Ionic Bonding
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Lesson 1: Chemical Formulas
Lesson 2: Ions
Lesson 3: Ionic Bonding
Lesson 4: Properties of Ionic Compounds
Lesson 5: Properties of Metals
Unit 5: Covalent Bonding
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Lesson 1: Covalent Bonding
Lesson 2: Naming Acids
Lesson 3: Lewis Structures
Lesson 4: VESPR Theory
Lesson 5: Polarity
Lesson 6: Properties of Covalent Compounds
Lesson 7: Intermolecular Forces
Lesson 8: Water
Unit 6: The Mole
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Lesson 1: The Mole
Lesson 2: Molar Mass of Compounds
Lesson 3: Empirical & Molecular Formulas
Lesson 4: Hydrates
Unit 7: Stoichiometry
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Lesson 1: Chemical Reactions
Lesson 2: Balancing Equations
Lesson 3: Classifying Chemical Reactions
Lesson 4: Predicting Products (S, C, D)
Lesson 5: Predicting Products (SR)
Lesson 6: Predicting Products (DR)
Lesson 7: Mole Ratios
Lesson 8: Stoichiometry
Lesson 9: Percent Yield
Lesson 10: Limiting Reactants
Unit 8: States of Matter
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Lesson 1: Kinetic Molecular Theory
Lesson 2: States of Matter
Lesson 3: Change of State
Unit 9: Acids & Bases
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Lesson 1: Solution Concentration
Lesson 2: Acids & Bases
Lesson 3: Strength of Acids & Bases
Lesson 4: Acid/Base Stoichiometry
Unit 10: Organic Chemistry
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Lesson 1: Alkanes, Alkenes, Alkynes
Lesson 2: Cyclic Hydrocarbons
Lesson 3: Substituted Hydrocarbons
Lesson 4: Esterification
Final
Science
Science Overview
Module 1: Welcome to Science Class!
Module 2: Learning
Module 3: Safety
Module 4: Engineering
Module 5: ACT
Module 6: IB
About
Distance Learning
Physics
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Lessons
IB Physics
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Lessons
Introducing Mia Lynn Cable!
Born at 1:55 AM on 01/17/15. 6 lbs 10 oz, 19 1/4 inches.
The sisters are introduced. "Look, A sleeping baby!"
"I hug"