October 20, 2016

Science

Science

Inspiring resources for K-12

From cells to the solar system, Boardworks Science products contain a wealth of high quality, ready-prepared resources for your interactive whiteboard or classroom projector that are mapped to your state standards and help you teach extraordinary lessons.


Dynamic teaching resources

Explore science with engaging and varied teaching material, like exciting interactive activities, dynamic animations, summary quizzes and games. With over 750 bite-sized presentations, Boardworks gives you everything you need to teach exciting, inspirational lessons.


Curriculum coverage

 

Elementary School Science

Middle School Science

High School Biology

High School Chemistry

High School Earth Sciences

High School Physics

AP Biology

AP Chemistry

AP Environmental Science

AP Physics

Mapped to state standards

All presentations are logically structured and enhanced with a wide range of material to ensure you get the most out of your lessons. Typical slides combine the main points for teaching, clearly conveyed, with relevant illustrative material.


Time-saving and ready to teach

 

Boardworks lessons are ready-to-teach, saving you and your colleagues precious time. Dynamic, step-by-step animations help explain complex processes and theories in an appealing and informative way.

 

Science content by product

MS Science


Acid Rain
Adaptations
Animal and Plant Cells
Animal Behavior
Atomic Structure
Average and Instantaneous Speed
Balancing Equations
Biological Weathering
Calculating Resultant Forces
Causes of Variation
Cells to Organisms
Changes of Matter
Changing State
Chemical Digestion
Chemical Weathering
Chromatography
Classifying Organisms
Climate Zones
Color
Competition
Conduction and Convection
Conservation of Mass
Days, Years and Seasons
Different Types of Rocks
Digestion
Distance, Time and Speed
Earthquakes
Electromagnetic Waves
Electromagnets
Elements and Compounds
Embryo Development and Birth
Energy Changes
Energy Efficiency
Energy Resources for the Future
Energy Transfer in Circuits
Environmental Change
Erosion, Transportation and Deposition
Everyday Chemical Reactions:
Evolution
Exploring Space
Feeding Types
Fighting Disease
Flooding
Food Chains
Food Webs
Formulae of Compounds
Fossil Fuels
Friction
Genes and Alleles
Graphing Speed
Gravity
Greenhouse Gases
Gregor Mendel
Growing Plants
Habitats
Heat and Temperature
How is Electrical Energy Useful
How Microbes Cause Disease
Human Behavior
Human Sex Cells and Systems
Hurricanes
Hydraulics
Igneous Rocks
Inheritance
Leaves and Glucose
Looking at Cells
Magnetic Fields
Magnetic Materials
Making Compounds
Making Gases
Metalloids
Metals and Nonmetals
Metamorphic Rocks
Moment Calculations
Moments
Naming Compounds
Neutralization
Nonrenewable Energy Resources
Parallel Circuits
Particles in Action
Physical Weathering
Plants as Food
Plate Boundaries
Precipitation
Puberty
Pyramids of Number and Biomass
Radiation
Recycling Nutrients
Reducing Our Energy Bills
Reflection
Refraction
Releasing Energy
Renewable Energy
Respiration and the Circulatory System
Roots and Water
Satellites
Sedimentary Rocks
Selecting Characteristics
Separating Mixtures
Series Circuits
Soil
Solutions
Speed of Sound
Symbols for Elements
The Atmosphere
The Ear and Hearing
The Earth, Moon and Sun
The Endocrine System
The Musculoskeletal System
The Nervous System
The Periodic Table
The pH Scale
The Respiratory System
The Rock Cycle
The Solar System
The Structure of the Earth
The Water Cycle
Tornados
Tsunami Case Study
Types of Animal Behavior
Types of Chemical Reactions
Types of Reproduction
Types of Variation
Uses of Electromagnets
Uses of Microbes
Using Rocks
Wind and Ocean Currents
Weather Hazards
What Are Acids and Alkalis?
What Are Atoms?
What Are Circuits?
What Are Forces?
What Are Indicators?
What Are Microbes?
What is a Mixture?
What is Energy?
What is Light?
What is Photosynthesis?
What is Plate Tectonics?
What is Sound?
What is Weather?
Where Do Cells Come From?

ES Science

Animals and Plants
Changing Materials
Feel the Force
Growing Plants
Growing Up
Hot and Cold
Light and Dark
Living Things
Magnets
Marvellous Materials
Materials Matter
Mysterious Magnets
Rocks
Senses
Shadows
Soil
Springs
Weather
Adaptations
Body Systems
Changing State
Circuits
Days and Seasons
Electromagnets
Energy Forms
Erosion, Transportation and Deposition
Food Chains
Forces
Fossils
Friction
Gravity
Habitats
Insulators and Conductors
Interdependence
Microorganisms
Our Solar System
Plant Reproduction
Pollution
Predicting the Weather
Reflection and Refraction
Separating Mixtures
Sounds
The Moon
Water Cycle

High School Biology


Active Transport
Aerobic Respiration
Air Pollution
Alcohol Abuse
Anaerobic Respiration
Animal Adaptations
Antibodies and Vaccinations
Asexual Reproduction
Behavior
Blood and Blood Vessels
Blood Transfusions
Body Temperature
Boy or Girl
Carbon Cycle
Cell Differentiation
Cell Theory
Cells to Organisms
Classification
Climate Change
Controlling Movement
Controlling Protein Synthesis
Darwin
Decomposers
Describing Populations
Development
Diabetes
Diffusion
Digestion
DNA Replication 1
DNA Replication 2
DNA
Ecosystems
Ecosystems and Succession
Electrocardiograms
Energy Loss in Food Chains
Energy Transfer in Food Chains
Environmental Variation
Enzyme Shape
Enzymes
Eukaryotic Cells
Evolution
Extinction
Female Reproductive System
Food Chains
Food Webs
Fossil Fuels
Fossil Record
Genes and Alleles
Genetic Engineering for Health Care
Genetic Engineering
Genetic Mutations
Genetic Variation
Glucoregulation
GM Organisms
Gregor Mendel
HIV and AIDS
Homeostasis
Hormones
Host-parasite relationships
Human Impact on the Environment
Human Populations
Immune Responses
Immune System
Incomplete Dominance and Codominance
Infectious Disease
Inherited Diseases
Introduction to Biodiversity
Lipids
Loss of Diversity
Meiosis
Microscopy
Mitosis
Monosaccharides
Nerve Impulses
Nitrogen Cycle
Nucleic Acids
Nutrition
Organelles
Osmosis
Over-fishing
Pasteurization
Patterns of Inheritance
Photosynthesis 1
Photosynthesis 2
Plant Adaptations
Polysaccharide
Population Genetics
Predator-Prey Relationships
Prokaryotic Cells
Protein Synthesis
Proteins
Recycling Nutrients
Reflexes
Selective Breeding
Sliding Filament Theory
Smoking
Specialized Plant Cells
Superbug
Sustainability
The Brain
The Endocrine System
The Fluid Mosaic Model
The Impact of Mining
The Impact of Using CFCs
The Kidneys
The Nervous System
The Process of Evolution
The Respiratory System
The Skeleton
The Stages of Meiosis
The Stages of Mitosis
Thermoregulation
Transcription and Translation
Tuberculosis
Types of Muscles
Understanding Genomes
Vaccinations
Ventilation
Water Cycle
Water Pollution
Water
What is a Species?

High School Chemistry

Alcohols
Atomic Number and Mass Number
Atomic Structure
Bonds and Activation Energy
Calorimetry
Carboxylic Acids
Chain Reactions
Changing State
Climate Change
Combustion
Comparing Bonding
Compound Ions
Compounds
Concentration, Pressure and Reaction Rates
Conservation of Mass
Covalent Bonding
Dangers of Radiation
Dynamic Equilibrium
Earth's Structure
Electrolysis of Dilute Sulfuric Acid
Electrolysis of Lead Bromide
Electrolysis of NaCl
Electron Configuration
Electron Structure and the Periodic Table
Electronegativity
Endothermic Reactions
Energy Sublevels
Energy Transfers
Enthalpy Change
Equilibrium - Changing Conditions
Esters
Exothermic Reactions
Extracting Aluminum
Fermentation
Formation of Ions
Functional Groups
Gamma Rays
Gas Chromatography
Gases and Moles
Giant Covalent Structures
Half-life
Heat
Hydrocarbons
Hydrogenation
Ideal Gas Laws
Intermolecular Forces
Introducing Atoms
Ionic Bonding
Ionic Compounds
Ionization Energy
Isomers
Isotopes
Le Chatelier's Principle
Metallic Bonding
Molar Mass
Naming Compounds
Neutralization
Nuclear Fission
Nuclear Fusion
Nuclear Waste
Nucleic Acids
Observing Line Spectra
Orbitals
Oxidation Numbers
Particles in Action
Patterns of Behavior
Percentage Composition by Mass
pH and Indicators
Polymers
Polysaccharides
Properties of Acids and Alkalis
Proteins
Purification of Copper
Radioactive Dating
Radioactivity
Rates of Reaction
Reacting Masses
Redox Reactions
Relative Atomic Mass
Relative Formula Mass
Reversible Reactions
Separating Mixtures
Shapes of Molecules
Solubility
Solutions
Surface Area, Catalysts and Reaction Rates
Temperature and Reaction Rates
The Atmosphere
The Haber Process
The Impact of Mining
The Impact of Using CFCs
The Noble Gases
The Periodic Table
The Photoelectric Effect
Thermal Decomposition
Types of Formulae
Types of Radiation
Uses of Radiation
Water
What are Moles
Why do Atoms form Bonds
X-rays
Yield and Atom Economy

High School Physics

Acceleration
Calculating Resistance
Calorimetry
Changes in Momentum
Changing State
Circuit Diagrams
Circular Motion
Conduction and Convection
Conductors and Insulators
Conservation of Energy
Conservation of Momentum
Current and Potential Difference
Current, Voltage and Resistance
Diffraction
Displacement, Velocity and Acceleration
Doppler Effect
Electrical Power
Electromagnetic Waves
Energy Transfers
Factors Affecting Resistance 1
Factors Affecting Resistance 2
Fossil Fuels
Free-Body Diagrams
Friction
Gamma Rays
Gravitational and Potential Energy
Gravity
Interference
Kinetic Energy
Lenses
Longitudinal Waves
Magnetism, Current and Force
Mass and Weight
Momentum
Motors
Newton's First Law
Newton's Second Law
Newton's Third Law
Nuclear Fission
Nuclear Fusion
Observing Line Spectra
Particles in Action
Polarization
Power
Projectiles
Quarks and Antimatter
Radiation
Radioactive Dating
Radioactivity
Reflection
Refraction
Refractive Index
Series and Parallel Circuits
Sound
Speed and Velocity
Springs
Standing Waves
Static Electricity
Structure of the Atom
Superposition and Interference
The Big Bang Theory
The Life Cycle of Stars
The Photoelectric Effect
The Solar System
Transverse Waves
Types of Current
Types of Radiation
Uses of Radiation
Vectors and Scalars
Wave Properties of Particles
Waves
Work
X-Rays

High School Earth Science

Air Pollution
Astronomical Distances
Climate Change
Clouds
Coastal Depositional Landforms
Coastal Erosional Landforms
Coastal Processes
Conduction and Convection
Doppler Effect
Earth's Structure
Earthquake Causes
Earthquake Effects
ENSO
Erosion, Transportation and Deposition
Evidence for Climate Change
Extinction
Extreme Flooding
Formation of Fossil Fuels
Fossil Fuels
Fossil Record
Gravity and Orbits
Greenhouse Gases
Heat Transfer and Global Interactions
Human Impact on the Environment
Hurricane Case Studies
Loss of Diversity
Managing Earthquakes
Measuring the Weather
Nuclear Fission
Nuclear Fusion
Observing the Universe
Planets of the Solar System
Plate Tectonics
Precipitation
Predicting Climate Change
Properties of Stars
Radioactive Dating
Recycling Nutrients
Relief
River Flooding
Satellites
Soil
Solar Energy
Structure of the Universe
Telescopes
The Atmosphere
The Carbon Cycle
The Impact of Mining
The Impact of Using CFCs
The Life Cycle of Stars
The Moon
The Nitrogen Cycle
The Rock Cycle
The Rotation of the Earth
Tropical Cyclones
Volcanoes
Water Cycle
Water Pollution
Weather and Climate
Weathering
Crude Oil

AP Biology


Alleles
Applications of Genetic Technology
Cell Differentiation and Stem Cells
Circulatory Systems
Classification
Components of Cell Membranes
Controlling Body Temperature
Controlling Protein Synthesis
Describing Populations
Ecosystems and Succession
Enzyme Action
Enzyme Inhibitors
Eukaryotic Cells
Evidence for Evolution
Factors Affecting Enzymes
Genetic Crosses 1
Genetic Crosses 2
Genetic Interactions
Genetic Mutations
Global Warming
HIV and AIDS
Human Populations
Introduction to Biodiversity
Introduction to Plant Hormones
Investigating Biodiversity
Key Molecules of Respiration
Light-Dependent Reaction
Light-Independent Reaction
Lipids
Measuring Biodiversity
Molecules involved in Photosynthesis
Monosaccharides
Nucleic Acids
Phylogeny
Plant Responses to Light
Polysaccharides
Prokaryotic Cells
Proteins
Recombinant DNA Technology
Structure of Chloroplasts
The Biochemistry of Respiration
The Endocrine System
The Fluid Mosaic Model
The Nervous System
The Process of DNA Replication
The Process of Evolution
The Stages of Meiosis
The Stages of Mitosis
Transcription and Translation
Water
"What is Respiration
(Introduction to Respiration)"

AP Chemistry

Acid-Base Theory
Alkenes
Balanced Equations
Bond and Lattice Enthalpies
Buffer Solutions
Calculating Relative Atomic Mass
Calorimetry
Catalysts
Collision Theory and Activation Energy
Concentration, Moles and Volume
Covalent Structures
Dynamic Equilibria
Electron Configuration
Electronegativity
Energy Levels
Energy Sublevels
Enthalpy Change
Entropy
Equilibrium Constants
Equilibrium Constants for Acids and Bases
Evidence for the Nucleus
Fundamental Particles
Half Cells
Hess's Law
Ideal Gases
Intermolecular Forces
Interpreting Mass Spectra
Kinetic Molecular Theory
Kinetics Calculations and Experiments
Le Chatelier's Principle
Mass Spectrometry
Moles
Nature of Bonding
Observing Line Spectra
Orbitals
Oxidation and Reduction
Oxidation Numbers
Period 3: Atomic Radii
Period 3: Ionization Energy
Period 3: Melting and Boiling Points
Period 3: Properties and Reactions
Predicting Redox Reactions
Radioactive Decay
Rate Equations
Rates of Reaction
Reacting Masses
Redox Reactions
Shapes of Molecules
Structural Isomerism
Thermal Energy
Types of Crystal
Types of Formulae
Types of Radiation

AP Physics

Angular Velocity
Atomic Energy Levels
Capacitance
Center of Gravity
Centripetal Acceleration and Force
Collisions and Explosions
Converging Lenses
Coulomb's Law
Current, Voltage and Resistance
Currents and Magnetic Fields
Diffraction
Discharging a Capacitor
Dispersion
Displacement, Velocity and Acceleration
Electric Field Strength
Electric Potential
Electrical Power
Electromagnetic Induction
Energy Storage in Capacitors
Fission and Fusion
Freefall and Projectile Motion
Ideal Gases
Impulse
Kinetic and Potential Energy
Kirchhoff's Laws
Mass and Energy
Measuring Waves
Mirrors
Molecular Kinetic Theory
Moments
Momentum
Moving Charges and Magnetic Fields
Newton's First Law
Newton's Law of Gravitation
Newton's Second Law
Newton's Third Law
Observing Line Spectra
Ohm's Law
Particles and Interactions
Power and Efficiency
Refraction
Resistivity
Resistors in Series and Parallel
Satellites and Orbits
Simple Harmonic Motion Systems
Simple Harmonic Motion
Standing Waves
Structure of the Atom
Superposition and Interference
The Photoelectric Effect
Thermal Energy
Types of Wave
Wave-Particle Duality
Work

AP Environmental Science

Aerobic Respiration
Air Pollution
Chain Reaction
Climate Change
Crude Oil
Describing Populations
Earthquakes
Earth's Structure
Ecosystems and Succession
Energy Consumption
Energy Flow in Food Chains
Energy Forms
Energy Transfer
ENSO
Evidence for Climate Change
Finite Energy Resources
Food Supply and Demand
Forestry
Formation of Fossil Fuels
Fossil Fuels
Fractional Distillation
Geothermal Power
Globalization
Greenhouse Gases
Heat Transfer and Global Interactions
Human Impact on the Environment
Human Populations
Hydroelectic Power
Hydrogen Fuel Cells
Improving Soil
Introduction to Biodiversity
Land Conservation Options
Managing Population Change
Managing Water Supply
Measuring Biodiversity
Nuclear Fission
Nuclear Fusion
Nuclear Waste
Nutritional Requirements
Over-fishing
Photosynthesis
Plate Tectonics
Population Distribution
Predicting Climate Change
Productivity and Farming
Public and Federal Lands
Rainforests
Rangelands
Representing Energy Flow
River Flooding
Smoking
Soil and Nutrients
Solar Energy
Species Conservation
Sustainable Agriculture
The Atmosphere
The Carbon Cycle
The Impact of Mining
The Impact of Using CFCs
The Importance of Biodiversity
The Nitrogen Cycle
The Process of Evolution
The Rock Cycle
The Rotation of the Earth
The Water Cycle
Threats to Biodiversity
Tidal Power
Types of Agriculture
Urbanization
Volcanoes
Water Pollution
Wave Power
Weather and Climate
Wind Power