Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 0: Bernoulli’s Principle

What happens when air starts to move that makes it behave in unintuitive ways?

Why does wind occur, and what is different about air once it starts to move than when it is standing still? We open up with a series of demonstration showing some unexpected events: a…

Standards

HS-PS2-1HS-ESS2-4

SEPs

Developing and Using ModelsAnalyzing and Interpreting DataConstructing Explanations

Vocabulary

fluidflowpressure differencevelocity

Supports / Differentiation

Stepwise PromptingConcept ChecksVisual Flow Model

Lesson Types

ModelPredictionExplanation

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 1: Air Pressure

How does air pressure affect weather and daily life?

Students explore how particle collisions create air pressure and connect that invisible particle behavior to weather systems and changes with altitude.

Standards

HS-PS1-3HS-PS3-2HS-ESS2-4

SEPs

Developing and Using ModelsAnalyzing and Interpreting DataUsing Mathematics and Computational ThinkingConstructing ExplanationsEngaging in Argument from Evidence

Vocabulary

gas particlesmotioncollisionvelocitymomentumforcepressuretemperaturevolumefast air streambalanced forcesdensitystatic airmoving airair streamparticle modelkinetic molecular theorydirect relationshipinverse relationship

Supports / Differentiation

Interactive SimulationVisual Particle ModelEmbedded VideosWord BankSentence FramesGuided Data CollectionStep-by-Step InstructionsHintsColor-Coded SectionsChunked QuestionsAuto-Checked PracticeReport GeneratorThought FramesWord Bank

Lesson Types

SimulationWritingGuided Revision

Open Unit Start Lesson

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 3: Gas Pressure Patterns

What patterns connect gas particles, pressure, and volume?

Students compare particle models to identify pressure patterns and explain how gases respond when conditions change.

Standards

HS-PS3-2

SEPs

Analyzing and Interpreting DataDeveloping and Using ModelsConstructing Explanations

CCCs

PatternsCause and EffectScale, Proportion, and QuantitySystems and System Models

Vocabulary

pressurevolumetemperatureparticlesmoleculesgasrelationshipdirectly proportionalinversely proportionalconstantlinearKelvin

Supports / Differentiation

Stepwise PromptingVisual Flow ModelConcept ChecksRelationship GuideSimulation Setup Steps

Lesson Types

SimulationPattern FindingWriting

Open Unit Start Lesson

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 4: Deriving the Ideal Gas Law

How do pressure, volume, temperature, and amount of gas fit one relationship?

Students build toward the ideal gas law by connecting particle behavior, variable patterns, and mathematical structure.

Standards

HS-PS1-3HS-PS3-4

SEPs

Using Mathematics and Computational ThinkingConstructing ExplanationsDeveloping and Using Models

Vocabulary

pressurevolumetemperaturemolesconstant

Supports / Differentiation

Formula GuideWorked PatternGuided Derivation

Lesson Types

MathModelingExplanation

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 5: Non-Ideal Gases

When does the ideal gas model stop working?

Students evaluate limits of the ideal model by considering particle size, attraction, high pressure, and low temperature.

Standards

HS-PS1-3HS-PS2-6

SEPs

Developing and Using ModelsConstructing ExplanationsEngaging in Argument from Evidence

Vocabulary

idealnon-idealattractionparticle volume

Supports / Differentiation

Model ComparisonSentence FramesGuided Evidence Check

Lesson Types

Model LimitsWritingAnalysis

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 6: Water Cycle

How does particle energy move water through Earth systems?

Students connect evaporation, condensation, and precipitation to particle energy, weather, and Earth systems.

Standards

HS-ESS2-5HS-ESS2-4

SEPs

Developing and Using ModelsConstructing ExplanationsSystems Thinking

Vocabulary

evaporationcondensationprecipitationwater vapor

Supports / Differentiation

Cycle DiagramVocabulary SupportCause-Effect Prompts

Lesson Types

System ModelWritingDiagram

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 7: Rain and Weather

How do pressure, temperature, and water vapor create weather patterns?

Students build from air pressure and water vapor to explain clouds, rain, and weather system behavior.

Standards

HS-ESS2-4HS-ESS2-5

SEPs

Analyzing and Interpreting DataDeveloping and Using ModelsConstructing Explanations

Vocabulary

humiditycloudsrain shadowair mass

Supports / Differentiation

Weather SequenceGuided ExplanationVisual Model

Lesson Types

Weather ModelExplanationData

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 8: Greenhouse Effect

How do gases affect the movement of energy through Earth’s atmosphere?

Students connect molecular structure, infrared radiation, and atmospheric energy flow to the greenhouse effect.

Standards

HS-ESS3-5HS-PS3-4

SEPs

Developing and Using ModelsConstructing ExplanationsEngaging in Argument from Evidence

Vocabulary

infraredradiationgreenhouse gasenergy transfer

Supports / Differentiation

Energy Flow DiagramClaim-Evidence-ReasoningVocabulary Support

Lesson Types

Energy ModelWritingEvidence

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson 9: Climate Change

How can small molecular changes affect large climate systems?

Students connect greenhouse gases, feedbacks, models, evidence, and climate impacts across scales.

Standards

HS-ESS3-5HS-ESS3-6

SEPs

Analyzing and Interpreting DataConstructing ExplanationsEngaging in Argument from Evidence

Vocabulary

climatefeedbackmodelcarbon dioxide

Supports / Differentiation

Data InterpretationCER FramesSystems Diagram

Lesson Types

SystemsEvidenceArgument

Open Unit No Activity Yet

Lesson Interactive Chemistry → Unit 1 Molecules to Weather

Lesson Final: Unit Report

How can particle-level chemistry explain weather and climate evidence?

Students assemble evidence from the unit into a polished final explanation report.

Standards

HS-ESS2-4HS-ESS3-5HS-PS1-3

SEPs

Obtaining, Evaluating, and Communicating InformationConstructing Explanations

Vocabulary

evidencemodelexplanationsystem

Supports / Differentiation

Report ChecklistRevision GuideCER Organizer

Lesson Types

PDF ReportSynthesisReflection

Open Unit No Activity Yet

Unit Interactive Chemistry → Unit 1 Molecules to Weather

Unit 1: Molecules to Weather

Particles, pressure, gases, water, weather, and climate

Explore how molecules and particles shape the world around us.

Standards

HS-PS1-1

SEPs

Developing and Using ModelsConstructing Explanations

Supports / Differentiation

Visual ModelsGuided Revision

Lesson Types

SimulationRevisionPDF

Open Unit

Lesson Interactive Chemistry → Unit 2 Structure of the Atom & Periodic Table

Lesson 1: Atoms

What is everything made of?

Is there a smallest piece of something? What is everything made of and why are different materials different? From Unit 1 you learned about the kinetic molecular theory of gasses where gasses are treated…

Standards

HS-PS1HS-ESS1

SEPs

Developing and Using ModelsAnalyzing and Interpreting DataConstructing Explanations

Vocabulary

atomelectronprotonelementneutronindivisibleelectric charge

Supports / Differentiation

Stepwise PromptingConcept ChecksVisual Flow Model

Lesson Types

Guided ThinkingSimulationWriting it outGuided Revision

Open Unit No Activity Yet

Unit Interactive Chemistry → Unit 2 Structure of the Atom & Periodic Table

Unit 2: Structure of the Atom & Periodic Table

Understanding atomic structure and the patterns behind the periodic table.

We begin with the question of what is everything made then observe that different objects have different colors. We study light and introduce a wave spectrometer to analyze light spectrums from different light sources.…

Standards

HS-PS1-3HS-PS3-4HS-ESS2-4HS-ESS2-5HS-ESS3-5

SEPs

Developing and Using ModelsAnalyzing and Interpreting DataUsing Mathematics and Computational ThinkingConstructing ExplanationsEngaging in Argument from EvidenceObtaining, Evaluating, and Communicating Information

Vocabulary

atomic orbitalatomelectronbeta particlenuclear chemistrynegative chargepositive chargeelectric forceatomic masscoulombs lawcentripetal force

Supports / Differentiation

Visual ModelsSentence FramesVocabulary SupportsInstant ChecksGuided RevisionPDF Evidence Report

Lesson Types

SimulationWritingRevisionPDF

Open Unit

Unit Interactive Chemistry → Unit 3 Nuclear Chemistry

Unit 3: Nuclear Chemistry

Radioactivity, isotopes, nuclear reactions, and applications

Investigate radioactive processes and applications.

Standards

HS-PS1-1

SEPs

Developing and Using ModelsConstructing Explanations

Supports / Differentiation

Visual ModelsGuided Revision

Lesson Types

SimulationWritingRevisionPDF

Unit Interactive Chemistry → Unit 4 Bonding and Molecular Structure

Unit 4: Bonding and Molecular Structure

Ionic, covalent, molecular shape, and structure-function patterns

Discover how atoms bond and how molecular structure shapes properties.

Standards

HS-PS1-1

SEPs

Developing and Using ModelsConstructing Explanations

Supports / Differentiation

Visual ModelsGuided Revision

Lesson Types

SimulationWritingRevisionPDF

Unit Interactive Chemistry → Unit 5 Chemical Reactions

Unit 5: Chemical Reactions

Reaction types, rates, evidence, and matter transformation

Explore how reactions occur and transform matter.

Standards

HS-PS1-1

SEPs

Developing and Using ModelsConstructing Explanations

Supports / Differentiation

Visual ModelsGuided Revision

Lesson Types

SimulationWritingRevisionPDF

Unit Interactive Chemistry → Unit 6 Stoichiometry and Solutions

Unit 6: Stoichiometry and Solutions

Quantities, concentrations, solutions, and calculations in context

Calculate quantities and understand solutions through models and evidence.

Standards

HS-PS1-1

SEPs

Developing and Using ModelsConstructing Explanations

Supports / Differentiation

Visual ModelsGuided Revision

Lesson Types

SimulationWritingRevisionPDF

Unit Interactive Chemistry → Unit 7 Intermolecular Forces and Real-World Chemistry

Unit 7: Intermolecular Forces and Real-World Chemistry

Attractions, properties, phase change, and everyday chemistry

See how intermolecular forces affect everyday chemistry.

Standards

HS-PS1-1

SEPs

Developing and Using ModelsConstructing Explanations

Supports / Differentiation

Visual ModelsGuided Revision

Lesson Types

SimulationWritingRevisionPDF

Unit Physics Patterns → Unit 1 Motion and Forces

Unit 1: Motion and Forces

What causes objects to move and what is the difference between dropping a ping pong ball on your foot or a bowling ball? What is the difference between hay blowing into a barn at 20 mph vs 200 mph?

Explore how forces shape the behavior of the world around us.

Standards

PS2,P23,P24

SEPs

Asking QuestionsDeveloping and using ModelsEngaging in Argumentation from EvidenceObtaining, Evaluating and Communicating information

Supports / Differentiation

TBD

Lesson Types

SimulationWritingRevisionPDF

Open Unit