About Our Curriculum
Science Companion is an inquiry-based, elementary school science program created using the most recent national science standards. It is designed to meet the needs of busy teachers, who may not be science experts, but who want to provide rich learning experiences for their students. Its hands-on investigations appeal to children’s natural sense of curiosity about their world, while covering the content and skills that will make them successful learners.
Curriculum Components
This page outlines the main components of the curriculum. Use the buttons on the left to navigate to other useful resources.
Curriculum Components
- Teacher Lesson Manual
- Teacher Masters and Visual Packs
- My Science Notebook for students
- Student Reference Book
- Assessment Book
- "I Wonder" Circle™
- ExploraGear™
Teacher Lesson Manual
The Teacher Lesson Manual helps busy teachers plan, prepare and teach science lessons that engage their students. Each manual includes detailed, easy-to-follow instructions with everything needed to successfully guide students through investigations and conduct meaningful discussions. Included in each module is a “Teacher Background Information:” a brief explanation of essential science content, including information to address students’ misconceptions and answer their questions.
Download a sample lesson from each Teacher Lesson Manual here.
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Teacher Masters and Visual Packets
Black-line masters provide additional resources for individual, small group, and whole class instruction, along with materials to create displays. Overhead transparencies, posters, and photo cards help teachers explain science concepts.
Download sample Teacher Masters for each module here.
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My Science Notebooks
The My Science Notebook provides a place for students to record ideas, observations, and data. While they develop science process skills, they also practice writing skills. The My Science Notebook helps teachers manage student explorations and investigations, while providing a portfolio to monitor and track student progress.
Download sample student My Science Notebook pages for each module here.
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Student Reference Books (in Levels 4 & 5)
Available in the upper levels, each Student Reference Book emphasizes reading skills and engages students with high-interest material that is accessible and inviting. It provides essential coverage for standards and benchmarks, while clarifying concepts and strengthening science vocabulary. An array of graphics illustrate science concepts and enhance and extend each lesson’s explorations.
Download sample selections of each Student Reference Book for the Level 4 and 5 modules here.
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Assessment Book
Assessment Books for each module provide teachers with multiple tools to inform their instruction. Included in each book are rubrics, lesson and unit assessment items, as well as performance and skills tasks. These tools will help prepare students for different types of test items, and make them more confident learners.
Download sample Assessment Book pages for each module here.
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"I Wonder" Circle™
A poster of the "I Wonder" Circle is sent with each Science Companion module, and students also have copies in each My Science Notebook. The Science Companion "I Wonder" Circle provides a visual representation of many facets of scientific inquiry, exploration, and discovery. An introductory lesson (Lesson 0) shows how to use the "I Wonder" Circle while engaged in “doing science.” Other Science Companion lessons regularly refer back to the "I Wonder" Circle, allowing students to sharpen their awareness of scientific thinking and reflect on the processes they are engaged in.
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ExploraGear™ Kits and Classroom Supplies
These kits contain equipment and consumables for experiments and data collection. They consist of high-quality items that are easy to maintain, restock, and store. Other easy-to-find classroom supplies are listed for each lesson.
View ExploraGear kit lists and classroom supplies lists for each module here.
Scope and Sequence
Science Companion offers full-year and multi-year coverage.
Levels 1 through 5 each include three units -- one in the Earth Science strand, one in the Life Science strand, and one in the Physical Science strand. We've organized Kindergarten into six studies, each of which is more informal and less sequenced than the units in Levels 1 through 5.
The scope and sequence chart below lists the titles of the studies and units presented in Kindergarten through 5th grade. The Levels 1 through 5 units are separated into clusters of lessons; the cluster topics are also included on the chart below.
| Life | Physical | Earth | |
| Pre-K-1 |
The Class Pet Daily Pet Care Making a Pet Care Book Pets from Home What Animals Do You Think Are Related to Our Class Pet? Nature Walk: Looking for Animals My Body Built of Bones Timeline: My First Five (or Six) Years Follow Your Food Exercise Antics |
Constructions Construction Site Science Ramps: Rolling Far, Rolling Fast Building Bridges Structures: Strong and Tall |
Collection From Nature Seek and Find Sort and Classify Weigh and Measure Where Did It Come From? What Does It Do? Dirt, Sand, and Water Mixing and Unmixing Packing and Pouring Weighing and Measuring Wet and Dry |
| 1-2 |
Collecting & Examining Life What is Alive? Local Wildlife: Leaves, Plants, Birds, Invertebrates, etc. Plants: Form, Movement, Breathing Animal: Form, Movement, Breathing Molds: Growth and Appearance Skill Builder: Using Magnifiers Skill Builder: Making Scientific Drawings Skill Builder: Measuring Small Things |
Motion What is Motion? Speed and Motion Changing Motion: Push and Pull Collisions (Bumping Balls) Friction Gravity (Marble Drop) Skill Builder: Using Balances and Scales |
Weather Weather Patterns: Daily Records Thermometer Use The Sun Water and Precipitation Air and Wind Skill Builder: Using a Compass Skill Builder: Reading Number Scales |
| 2-3 |
Life Cycles Our Tree Seed to Seed Measuring My Growth and Change My Family Tree Seasons and Plants Butterfly Life Cycle Timelines and Life Cycles Skill Builder: Measuring Length and Circumference |
Sound Sound is Made by Vibrating Objects Sound Sources and What Vibrates How the Ear Hears (Human) Pitch and Resonance Make Musical Instruments
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Rocks Sorting Rocks Rocks vs. Minerals Growing Crystals Fossils Skill Builder: Using Magnifiers |
| 3-4 |
Habitats What's My Habitat? What Organisms Need to Survive Who Needs an Oak Tree? Organisms Interact Within a Habitat Bird Beaks and Other Specialized Features Research a Biome Design an Organism |
Light Sources of Light Modeling How Light Travels Light and the Eye Light and Materials Absorption, Reflection, and Refraction Skill Builder: Using Models in Science |
Our Solar System Daytime and Nighttime The Earth Rotates Shadow at Noon: Seasonal Change Tracking Sunrise/Sunset Times The Earth Orbits Around the Sun Watching the Moon The Solar System and Its Planets Skill Builder: Making Line Graphs Skill Builder: Building to Scale |
| 4-5 |
Nature's Recyclers Wondering About Nature's Waste? Looking at Worms How Fungi Feed Investigating Bread Mold Growth Looking at Mushrooms Agents of Decomposition Soil Nutrients for Plants The Nutrient Game Skill Builder: Making Line Graphs |
Matter Exploring the Weight and Volume of Liquids and Solids Investigating Air A Sense of Density Evaporation Investigations Condensation: From Gas to Liquid Mixing and Separating Solids and Solutions Chemical Changes Skill Builder: Designing a Fair Test |
Watery Earth Following a Drop of Water Modeling Groundwater Modeling the Water Cycle Understanding How We Get and Treat Water Conserving Water at Home Filtering Water Water Resources Project Skill Builders: Evaporation and Condensation |
| 4-5-6 |
Human Body in Motion How We Move Moving our Bones How Muscles Know When to Move Moving to Prevent Harm Inside Bones Working Muscles Breathing Hard for Our Muscles Cells Make It All Possible Skill Builder: Observing and Describing |
Energy Energy's Many Forms How Energy Makes Things Go Making Boats Go Transferring Heat Energy Build a Better Water Bottle Getting More for Less: Energy Efficiency Inventions: Energy Working for Us Skill Builder: Measuring Temperature Accurately |
Earth's Changing Surface Looking for Changes on the Earth's Surface Making River Table Models Investigating Rock Abrasion Glaciers Carve the Land Wind Deposits Dunes Weathering Breaks Down Rocks Plate Movements Form Mountains Volcanoes Build Up the Earth's Surface Touring Landforms |
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Additional Modules for Physical Science |
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| 1-3 |
Magnets Observing Magnets Is It Magnetic? Do Magnets Work Through Different Materials? Investigating the Strength of Magnets Magnets on Magnets Magnets in Everyday Use |
Solids, Liquids, and Gases Properties of Objects What Are Things Made Of? Solids, Liquids, and Gases in Our World Comparing Liquids Changing the Properties of Solids Water Can Be Liquid, Solid, or Gas |
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| 3-5 |
Electrical Circuits Discovering What Happens When Something Is Electrically Charged Exploring Static Electricity Further Discovering How to Light a Bulb Making More Light Connections Making Effects with Electric Current Identifying Conductors and Insulators Recognizing Electrical Hazards in Everyday Life |
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Full-Year Schedule Planner
Use the following calendars as guidelines for scheduling lessons throughout the year. The calendars indicate areas where particular lessons can be taught in conjunction with another subject area such as mathematics or language arts.
Note: When aligning with your district or state science standards, all modules can easily be adapted for use one year above or below the grade level indicated.
Level One
Full-Year schedule for the Collecting and Examining Life, Motion, and Weather modules (PDF)
Level Two
Full-Year schedule for the Life Cycles, Sound, and Rocks modules (PDF)
Level Three
Full-Year schedule for the Habitats, Light, and Our Solar System modules (PDF)
Level Four
Full-Year schedule for the Nature's Recylers, Matter, and Watery Earth modules (PDF)
Level Five
Full-Year schedule for the Human Body in Motion, Energy, and Earth's Changing Surface modules (PDF)
Note: The schedules are in Adobe Acrobat® PDF format. You can download the free Adobe Acrobat Reader here.
Curriculum Samples
Click the links to download or view samples of our actual curriculum. The samples contain elements of the Teacher Lesson Manual, Student Science Notebooks, and other representative materials.
You may also wish to view the complete Scope & Sequence and Suggested Full-Year Schedules.
Samples grouped by level and unit
| Life | Physical | Earth | |
| Pre-K-1 |
The Class Pet, and |
Constructions
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Collection From Nature, and |
| 1-2 |
Collecting & Examining Life
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Motion
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Weather
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| 2-3 |
Life Cycles
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Sound
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Rocks
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| 3-4 |
Habitats
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Light
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Our Solar System
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| 4-5 |
Nature's Recyclers
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Matter
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Watery Earth
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| 4-5-6 |
Human Body
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Energy
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Earth's Changing Surface
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Additional Modules for Physical Science |
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| 1-3 |
Magnets
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Solids, Liquids, and Gases
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| 3-5 |
Electrical Circuits
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Spanish Student Science Notebooks Now Available
All Science Companion Student Science Notebooks are now available in Spanish. Contact us if you’d like to order Spanish versions for your classroom, school, or district.
Click below for printable (PDF) samples.
Module Overviews
Click the links in the grid below for an overview of each Science Companion module.
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| 2-3 |
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Additional Modules for Physical Science |
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Module Overview: Collecting and Examining Life (Level 1 -- Life Science)
From collecting animal tracks to dissecting flowers, children deepen their understanding of what makes something alive, and of the similarities and differences among living things.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
View a printable (PDF) Unit Summary of the module.
View ExploraGear and Classroom Supplies.
Lessons at a Glance
Lesson 1: Comparing Living and Nonliving
Big Idea: How can you tell when something is alive?
Children collaborate to think and talk about what is alive. They look at some "mystery" substances and set up an experiment to discover which substance is actually alive.
Lesson 2: Identifying Living Things
Big Idea: How can you tell when something is alive?
Children examine the results of the previous lesson's experiment. They observe and describe hatched brine shrimp. They begin developing criteria to identify and classify animals.
Lesson 3: Going on a Fall Wild Walk
Big Idea: Many different kinds of living things share our neighborhood environment.
Children visit a study site and learn about the natural environment. They look for signs of living things and collect leaves, soil, and seeds for follow-up lessons in the classroom.
Lesson 4: Looking for Animals in Soil
Big Idea: Many different kinds of living things share our neighborhood environment.
Children construct special tools, called Berlese funnels, to extract tiny animals from soil samples. They count the number of animals found and graph their data in a mathematics extension.
Lesson 5: Making a Fall Nature Book
Big Idea: Many different kinds of living things share our neighborhood environment.
Children write captions for the pressed leaves and photographs from the fall Wild Walk. They create a class book to serve as a point of comparison for the spring Wild Walk.
Lesson 6: Observing Snails
Big Idea: Animals are living things. They have many parts that help them move, breathe, eat, and sense their environment.
This lesson is one of three in which children closely observe and then compare different animals. In this lesson they observe, measure, and draw land snails, focusing on body parts used for moving, breathing, eating, and seeing.
Lesson 7: Observing Crickets
Big Idea: Animals are living things. They have many parts that help them move, breathe, eat, and sense their environment.
This lesson is one of three in which children closely observe and then compare different animals. In this lesson they observe, measure, and draw crickets, focusing on body parts used for moving, breathing, and seeing.
Lesson 8: Observing Fish
Big Idea: Animals are living things. They have many parts that help them move, breathe, eat, and sense their environment.
This lesson is one of three in which children closely observe and then compare different animals. In this lesson they observe fish, focusing on body parts used for moving and breathing.
Lesson 9: Using Zoo Clues
Big Idea: Animals are living things. They have many parts that help them move, breathe, eat, and sense their environment.
Children observe various animals on a zoo field trip. They play "Zoo Clues," a game in which they search for animals that display different characteristics or live in different environments.
Lesson 10: Comparing Animals and Plants
Big Idea: Like animals, plants are living things.
Children discuss whether plants are living things. To compare and contrast animals and plants, they create collages, generate a poster, and construct a Venn diagram.
Lesson 11: Studying Leaves
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children observe, sort, classify and measure a variety of leaves to learn about similarities and differences among leaves, basic leaf structure, and the function of leaves.
Lesson 12: Investigating Fruits and Seeds
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children observe and compare various familiar fruits and their seeds. They learn the scientific definition of a fruit and consider the functions of fruits and seeds.
Lesson 13: Learning About Seed Dispersal
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children observe different seeds to learn about seed variety and dispersal. They look at the characteristics of seeds and then try to figure out how seeds travel to a new location to sprout.
Lesson 14: Sprouting Seeds
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children observe sprouts and dissect a bean seed to see what is inside. They prepare bean and corn seeds to sprout, then observe and monitor the growth of the sprouts for several days.
Lesson 15: Examining Roots
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children explore root structure and function. They compare the weight of plant parts that grow above ground to those that grow underground, and experiment with rooted and rootless plants.
Lesson 16: Experimenting With Celery Stems
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children investigate stems and their functions. They compare soft stems to woody stems and learn that stems provide support for plants, and move water and nutrients to plant parts.
Lesson 17: Going on a Spring Wild Walk
Big Idea: Many different kinds of living things share our neighborhood environment.
The class returns to the site of its fall Wild Walk to observes the sights and sounds of spring. Children choose a living thing or evidence of life to document for the spring nature book.
Lesson 18: Dissecting Flowers
Big Idea: Plants are living things. They have many parts that work together to help them grow and make new plants.
Children observe, compare, dissect, and draw pictures of flowers. They begin learning about flower parts and structure by noting similarities and differences between flowers.
Lesson 19: Making a Spring Nature Book
Big Idea: Many different kinds of living things share our neighborhood environment.
Children write about and draw the living thing or evidence of life they observed on the spring Wild Walk. They make a class book to serve as a point of comparison to fall's Wild Walk.
Lesson 20: Growing Mold
Big Idea: Fungi are living things that are neither plants nor animals.
Children are introduced to a third living kingdom, called fungi, and update their "Living Things" poster or Venn diagram. They set up a growing medium to examine a simple fungus called mold.
Lesson 21: Observing Mold Growth
Big Idea: Fungi are living things that are neither plants nor animals.
Children observe the mold farms they started on their growing medium. They also compare the characteristics of molds and other fungi to the characteristics of plants and animals.
Lesson 22: Playing Bio Bingo
Big Idea: Animals, plants, and fungi are living things.
Children review the three major categories of life they studied: animals, plants, and fungi. They recall and record the living things, and use what they learned to play a game called "Bio Bingo."
Skill Building Activity 1: Using Magnifiers
Big Idea: A magnifying lens makes things look larger than they really are. You can use a magnifying lens to examine objects closely and to see details that you might not see without it.
Children learn how to use a magnifying lens, like the ones supplied in the Science Companion kit. There is also an extension in which children learn how to use a jeweler's loupe.
Skill Building Activity 2: Making Scientific Drawings
Big Idea: A scientific drawing is accurate. It contains details about its subject.
Children look at scientific drawings, identify their characteristics, and discuss how they differ from other types of drawings. They make their own scientific drawings, with a focus on looking closely at and accurately drawing the object.
Skill Building Activity 3: Measuring Small Things
Big Idea: Measurements are not exact. It's all right to round to the nearest unit and say the object is "about ___ units long."
Children practice measuring objects and rounding measurements to the nearest centimeter.
Skill Building Activity 4: Using Balances and Scales
Big Idea: Measuring how much something weighs is a basic scientific skill.
Children compare the weight of various objects using balances and scales. They gain an appreciation and awareness of weight, and strengthen their measuring skills.
Module Overview: Motion (Level 1 -- Physical Science)
Through activities that engage children’s bodies and minds, children move their own bodies in various ways to learn about motion, as well as build ramps, roll toy cars, drop and crash marbles, slide pennies and shoes, and even fly paper airplanes.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
View a printable (PDF) Unit Summary of the module.
View ExploraGear and Classroom Supplies.
Lessons at a Glance
Lesson 1: Searching for Motion
Big Idea: Motion is movement. You can describe an object’s motion by how long it takes, how far the object travels, how fast the object goes, and what path it follows.
Children contemplate what motion is as they become “motion detectives” who search for, identify, and describe motion in their surroundings. They think of words to describe motion and act out a variety of motions with their bodies, incorporating aspects such as distance, time, speed, change in speed, and path of motion in their demonstrations.
Lesson 2: Drawing Motion
Big Idea: Motion is movement. You can describe an object’s motion by how long it takes, how far the object travels, how fast the object goes, and what path it follows.
Children act out different motions with their bodies and then depict motion in a drawing. They try to incorporate some of the components of motion—such as time, distance, speed, and path—in their drawings.
Lesson 3: Observing and Describing the Path of Motion
Big Idea: Motion is movement. You can describe an object’s motion by how long it takes, how far the object travels, how fast the object goes, and what path it follows.
Children focus on the path of motion, using their bodies and a ball to create and describe different paths. By comparing different paths between the same points, they learn that a good description of an object’s motion includes information about its path.
Lesson 4: Conducting Speed Trials
Big Idea: Motion is movement. You can describe an object’s motion by how long it takes, how far the object travels, how fast the object goes, and what path it follows.
Children investigate and compare the speeds of various motions they make with their bodies. They move in different ways (jumping, walking backwards, and crawling) for a fixed amount of time and measure how far they travel doing each motion. Building on this activity, the children compare the speeds of different motions and begin to develop an understanding that speed is determined by factors of time and distance.
Lesson 5: Changing Motion: Starting Things Moving and Changing Direction
Big Idea: The way to change how something moves is to give it a push or a pull.
Children begin an extended study of how forces (pushes and pulls) change an object’s motion. They use toy cars and other props to discover that pushes and pulls are needed to get a still object to start moving. They also learn that pushes and pulls are required to change the direction of an object’s motion, and they contemplate other changes in motion, such as slowing down and speeding up.
Lesson 6: Comparing Big and Small Forces
Big Idea: The way to change how something moves is to give it a push or a pull.
Children explore the effects of forces of varying sizes on the motion of toy cars. They discover that big forces change the motion of toy cars more than little forces do.
Lesson 7: Creating Collisions: Rolling and Bumping
Big Idea: Collisions cause pushes that may change the motion of all the colliding objects.
Children continue their investigation of forces by performing controlled collision experiments with marbles rolling along a track. By varying several factors, the children begin to realize they can change the strength of the forces involved in the collisions. They also identify conditions that make a marble roll partway along a track and those that make it roll all the way to the end of the track.
Lesson 8: Experimenting with Collisions
Big Idea: Collisions cause pushes that may change the motion of all the colliding objects.
Children use the marbles and tracks from Lesson 7 to create controlled collisions and observe the motion of the colliding objects. They design their own collisions, trying to change just one condition at a time.
Lesson 9: Slowing Things Down With Friction
Big Idea: Friction is a force (a pull) that slows down moving objects.
Children study friction by sliding pennies on a variety of surfaces and comparing how far the pennies travel before they stop. Through their explorations, they learn that friction is a force that is always present (though often overlooked) and that different surfaces exhibit different amounts of friction. A common misconception, that moving objects slow down on their own, is also addressed in this lesson.
Lesson 10: Sliding and Sticking: Exploring Friction and Traction
Big Idea: Friction is a force (a pull) that slows down moving objects.
Children continue to investigate friction as they test the amount of traction created by various kinds of shoes. They discover that the degree of traction shoes supply depends on the materials, textures, and tread patterns of the shoes’ soles: there is more traction when there is more friction between the shoe and the surface it is sliding on. They also realize that, although friction is sometimes a nuisance because it slows things down, at other times we rely on friction for just that reason.
Lesson 11: Gravity: Down to Earth
Big Idea: On Earth, gravity is a force that pulls everything down all the time.
Children observe and describe the effects of gravity on their bodies and on falling objects and begin to think about the relationship between weight and the pull of gravity. They draw pictures of what the classroom would look like without gravity to help them realize how universal gravity really is. They also participate in a science talk in which they consider whether gravity is a force.
Lesson 12: Dropping Marbles: More Experimentation With Gravity
Big Idea: On Earth, gravity is a force that pulls everything down all the time.
Children drop marbles of different weights to further explore the effects of gravity. They observe that marbles dropped at the same time always land at the same moment, no matter how much the marbles weigh. The children also see that the heaviest marbles make the biggest holes.
Lesson 13: Motion Madness
Big Idea: Motion is movement. You can describe an object’s motion by how long it takes, how far the object travels, how fast the object goes, and what path it follows. The way to change how something moves is to give it a push or a pull.
Children review important concepts from the Motion Unit as they slide, jump, and experiment with colliding balls. They try to give detailed descriptions of each of the motions used in these activities and consider some of the pushes and pulls (forces) involved. This fun, action-packed lesson can be taught outdoors on the playground or indoors in the gymnasium or another suitable open space.
Skill Building Activity 1: Observing and Describing
Big Idea: Observation is a powerful tool for learning about something. Detailed and accurate descriptions of your observations help you communicate them to others.
Children practice making accurate and detailed descriptions before and after observing a familiar object. In doing so, they discover the importance of careful observation and detailed description in science.
Skill Building Activity 2: Using Balances and Scales
Big Idea: Measuring how much something weighs is a basic scientific skill.
Children compare the weight of various objects using balances and scales. They gain an appreciation and awareness of weight, and strengthen their measuring skills.
Module Overview: Weather (Level 1 -- Physical Science)
One day students learn to use a thermometer to record temperature, another day they measure rainfall or investigate the nature of ice. Throughout the year, students use their senses as well as scientific tools to discover that weather is a dynamic and sometimes unpredictable part of nature.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
View a printable (PDF) Unit Summary of the module.
View ExploraGear and Classroom Supplies.
Lessons at a Glance
Lesson 1: What Is Weather?
Big Idea: Weather is how the sky looks and feels.
Children look at pictures of various types of weather, talk about their perceptions of weather, and listen to weather poems. The class writes a weather poem and develops a definition of weather.
Lesson 2: What Is a Meteorologist?
Big Idea: Weather is how the sky looks and feels. A meteorologist observes, measures, describes, and records the weather.
Children learn about some symbols and descriptive terms commonly used by meteorologists. A class meteorologist starts recording daily weather observations on a class weather calendar.
Lesson 3: Using a Thermometer
Big Idea: Weather is measurable.
Children use thermometers to measure temperature. They learn how to read a thermometer color scale, and practice using it by measuring the temperature of their hands and the air.
Lesson 4: Measuring Temperature
Big Idea: Weather is measurable.
Children measure water and air temperatures to practice reading the thermometer color scale. The class meteorologist begins recording the outdoor temperature on the weather calendar.
Lesson 5: The Sun Warms
Big Idea: Weather is measurable. The sun plays a role in weather.
Children think about the sun’s role in weather, focusing on how sunlight illuminates and warms. They measure temperature and observe ice cubes melt to compare shady and sunny spots.
Lesson 6: Discovering Weather Patterns: September
Big Idea: We notice weather patterns by observing, measuring, and graphing weather over time.
Children record and analyze the daily weather observations compiled from September’s class weather calendar. They also learn to use sky observation data to make a bar graph.
Lesson 7: Measuring Rain
Big Idea: Water, in its many forms, plays a role in the weather.
Children consider the role of water in weather and measure rainfall with a rain gauge. They use their rain observations to summarize the day’s weather, and look at a model of annual rainfall.
Lesson 8: Clouds in the Sky
Big Idea: Water, in its many forms, plays a role in the weather.
The children consider how clouds are made. They look at a cloud chart and make models of the three basic cloud shapes -- cumulus, cirrus, and stratus.
Lesson 9: Water Freezes: Ice
Big Idea: Water, in its many forms, plays a role in the weather.
Understanding how water changes -- from liquid to solid and back again -- is essential to understanding weather. In this lesson, the children place small items in cups of water and observe what happens when they freeze them.
Lesson 10: Water Melts
Big Idea: Water, in its many forms, plays a role in the weather.
The children explore ways of melting the ice from Lesson 9. They practice thermometer skills by measuring the temperature of the ice and the water as it melts.
Lesson 11: Discovering Weather Patterns: October
Big Idea: We notice weather patterns by observing, measuring, and graphing weather over time.
Children record and analyze the daily weather observations compiled from October’s class weather calendar. They make two bar graphs: sky observations and temperature colors.
Lesson 12: Water Goes Into the Air
Big Idea: Water, in its many forms, plays a role in the weather.
Understanding how water changes -- in this lesson from liquid to vapor and back again -- helps us understand weather. Children explore the unfamiliar idea that water can be a part of the air, an invisible gas called water vapor. They are introduced to the idea by watching liquid water disappear into the air as it evaporates.
Lesson 13: Water Comes Out of the Air
Big Idea: Water, in its many forms, plays a role in the weather.
Children continue to explore the idea that water can be a part of the air. They watch as water condenses out of the air and forms droplets on cold surfaces.
Lesson 14: Exploring Dew
Big Idea: Water, in its many forms, plays a role in the weather.
The children investigate the phenomenon of condensation outdoors by taking a morning dew walk. They discuss where the liquid water came from.
Lesson 15: Catching Dew
Big Idea: Water, in its many forms, plays a role in the weather.
Children review their theories of dew formation and set up "dew catchers." They monitor the dew catchers and develop a more sophisticated understanding of where dew comes from.
Lesson 16: Discovering Weather Patterns: November
Big Idea: We notice weather patterns by observing, measuring, and graphing weather over time.
Children record and analyze the daily weather observations compiled from November’s class weather calendar. They expand their data collection and analysis to include precipitation data.
Lesson 17: Water Freezes: Frost
Big Idea: Water, in its many forms, plays a role in the weather.
Children create frost and observe the conditions conducive to its formation. They learn that frost, like dew, comes out of the air, but that it forms as tiny ice crystals rather than water droplets.
Lesson 18: Water Freezes: Snow
Big Idea: Water, in its many forms, plays a role in the weather.
The children look at snowflakes in photomicrographs and in photographs or drawings. They observe how snowflakes form in six-sided (hexagonal) or six-pointed patterns of many designs and make their own representations of snowflakes from paper and pattern blocks. If snow is available, children observe preserved and fresh snowflakes and compare the volume of snow to the volume of melted snow.
Lessons 19 -- 21: Discovering Weather Patterns: December -- February
Big Idea: We notice weather patterns by observing, measuring, and graphing weather over time.
Children record and analyze the daily weather observations compiled from each month’s class weather calendar. In addition to sky observations and temperature data, they record and analyze precipitation data.
Lesson 22: Air Surrounds Us
Big Idea: Air plays a role in the weather. Air surrounds us, and takes up space.
Children investigate some of the properties of air. They observe a demonstration of how air fills the "empty" space in a bottle, and experiment with air trapped inside objects and plastic bags.
Lesson 23: Observing Wind
Big Idea: Air plays a role in the weather. Wind is a moving flow of air.
Children go outdoors to experience wind and observe the direction of the wind. They are also introduced to the concept of the four cardinal directions.
Lesson 24: Making Wind Tools
Big Idea: Air plays a role in the weather. Wind is a moving flow of air.
The children discuss how people use various tools to learn about the wind. They make tools that can measure wind strength and speed.
Lesson 25: Measuring Wind
Big Idea: Air plays a role in the weather. Wind is a moving flow of air.
Children sense and measure wind speed, strength, and direction using the tools they made in the previous lesson. They learn several different categories of wind speed.
Lesson 26 -- 28: Discovering Weather Patterns: March -- May
Big Idea: We notice weather patterns by observing, measuring, and graphing weather over time.
Children record and analyze the daily weather observations compiled from each month’s class weather calendar.
Lesson 29: Discovering Weather Patterns for the Year
Big Idea: We notice weather patterns by observing, measuring, and graphing weather over time.
Children compile their weather data and reflect on overall patterns over the months and seasons.
Skill Building Activity 1: Using a Compass
Big Idea: A compass can be used to find north and other directions.
This skill building activity teaches children how to read a compass to find north, and from there to determine the other cardinal directions.
Skill Building Activity 2: Reading Number Scales on Thermometers
Big Idea: Number scales give precise temperature measurements.
Children become familiar with the numbers and marks on their thermometers. They relate the color scale to numbers on the number scale, and then practice reading just the number scale. Teach this skill building activity to individual children as they are ready, or to the whole class.
Skill Building Activity 3: Using Magnifiers
Big Idea: A magnifying lens makes things look larger than they really are. You can use a magnifying lens to examine objects closely and to see details that you might not see without it.
Children learn how to use a magnifying lens, like the ones supplied in the Science Companion kit. There is also an extension in which children learn how to use a jeweler’s loupe.
Module Overview: Life Cycles (Level 2 -- Life Science)
From watching a pea sprout to feeding apples to butterflies, children closely study four organisms, including humans, to observe the remarkable growth and change that living things experience during their life spans.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
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Lessons at a Glance
Lesson 1: Introduction to Life Cycles
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and eventually, dying.
Children are introduced to the Life Cycles Unit. They brainstorm the concept of a cycle and discuss some of the cycles in their own lives. They also create a life-cycle diagram for a human.
Lesson 2: Exploring Life Cycles and Spans
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and eventually, dying.
Children look at organisms pictured with their offspring. They notice that many offspring resemble their parents, while others do not. The children complete life cycle diagrams for a bean, a frog, and a sheep, and explore the concept that life spans of living things vary.
Lesson 3: Humans -- Life Cycles and Generations
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. The stages of the human life cycle repeat from one generation to the next.
Children identify the human life stages portrayed in a family reunion photograph and recreate the life cycles of a grandmother, mother, and daughter.
Lesson 4: Humans -- Life Cycles and Generations (Interview)
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. The stages of the human life cycle repeat from one generation to the next.
Children interview classroom guests from their parents' and grandparents' generations, using questions prepared in advance. During the interview process, the children develop a sense of the passage of time inherent to generations.
Lesson 5: Trees -- Fall Observations
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Physical growth and change are natural parts of the tree life cycle.
Children use their senses of sight, hearing, smell, and touch to observe a class tree. They predict how the tree and its surroundings might grow or change during their yearlong tree study.
Lesson 6: Trees -- Fall Measurements
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Physical growth and change are natural parts of the tree life cycle.
Children take baseline measurements of the class tree in order to track its physical growth from the fall to the spring.
Lesson 7: Humans -- Measuring My Physical Growth (Fall)
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Rapid physical growth is a natural part of the human life cycle until adulthood.
Children take baseline measurements of themselves in order to track their physical growth from the fall to the spring.
Lesson 8: Humans -- Measuring My Intellectual Growth (Fall)
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Intellectual growth is a natural part of the human life cycle.
Children learn that making new connections in the brain is the basis for intellectual growth. They explore a food sample and map out on a brain diagram the connections being made in their brains as they explore.
Lesson 9: Humans -- Survival Needs
Big Idea: Humans, like all animals, need food, water, air, shelter, security, and healthy sanitary conditions in order to survive. Humans also have emotional, social, and intellectual needs.
Children consider the basic survival needs of all animals as they design an adventure and explain how particular needs would be met. They recognize the basic needs of all animals as well as the needs humans have above and beyond these basic needs.
Lesson 10: Trees -- Growth Rings
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Trees are more likely to survive and thrive in each stage of their life cycle when their survival needs are met.
Children examine a cross section of a tree and learn how to determine its age. They observe that the distance between tree rings varies and speculate about the reasons why.
Lesson 11: Trees -- Winter Observations
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Physical growth and change are natural parts of the tree life cycle.
Children discuss how the weather during winter might affect the tree, and make observations of the tree and its surroundings. They also discuss the concept of dormancy.
Lesson 12: Seed to Seed -- Examining and Planting Seeds
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Seeds are an important stage in the life cycle of a plant.
Children begin a study of the life cycle of a pea plant. They examine seeds and learn about seed germination. They identify the parts of a seed that are instrumental to growth and plant seeds that they will observe over the next two months.
Lesson 13: Seed to Seed -- Transplanting and Stressing Sprouts
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Plants are more likely to survive and thrive in each stage of the life cycle when their survival needs are met.
Children transplant pea sprouts and begin tracking the plants' growth in both an optimal and a stressful environment.
Lesson 14: Butterflies -- Baby Caterpillars
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Caterpillars are an important stage in the butterfly life cycle.
Children begin studying the life cycle of butterflies. They observe, measure, and draw young caterpillars. They also start a life span calendar for the caterpillars that turn into butterflies.
Lesson 15: Butterflies -- Larger Caterpillars
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Physical growth and change are natural parts of the butterfly life cycle.
Children become more familiar with caterpillars: how they look, how they move, and how they behave. The children watch caterpillars eating and observe their limbs and locomotion. They also learn the caterpillar's basic body parts.
Lesson 16: Trees -- Spring Observations
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Physical growth and change are natural parts of the tree life cycle.
Children discuss how spring weather affects the tree, and make observations of the tree and its surrounding environment. They also discuss the stages of a tree's life cycle, and identify the likely stage of the class tree.
Lesson 17: Butterflies -- Chrysalises
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Chrysalises are an important stage in the butterfly life cycle.
Children observe the pupa stage of the life cycle of butterflies. They continue their observations and discussions of the butterfly life cycle, with an emphasis on the concept of metamorphosis.
Lesson 18: Seed to Seed -- Looking at Flowers
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Flowers are an important stage in the pea plant life cycle.
Children consider the part the flower plays in the life cycle of a plant. They review the parts of the flower to understand how it plays a critical role in seed formation.
Lesson 19: Trees -- Spring Measurements
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Physical growth and change are natural parts of the tree life cycle.
Children take final measurements of the class tree and calculate its physical growth since the beginning of the school year.
Lesson 20: Trees -- Study Results
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. A tree has multiple annual cycles within its life cycle.
Children culminate their yearlong study of the class tree by illustrating the annual cycle of a deciduous tree and attaching it to a "Life Cycle of a Tree" poster. They discuss how the poster reveals the many annual cycles that occur within a single life cycle of a deciduous tree.
Lesson 21: Butterflies -- Adult Butterflies
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. The adult is the final stage in the butterfly life cycle.
Children explore the final stage in the metamorphosis of the butterfly -- the adult. They examine the eating behavior and physical features of the adult butterfly, and then compare and contrast these characteristics with those of the caterpillar.
Lesson 22: Butterflies -- Generations
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. The adult butterfly may reproduce and lay eggs that hatch to create the next generation.
Children continue to learn about adult butterflies. They observe butterfly eggs and discover the birth of a second generation as caterpillars hatch and the life cycle repeats.
Lesson 23: Seed to Seed -- Observing Fruits and Seeds
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Fruits are the final stage in the pea plant life cycle.
Children examine the fruits that developed on the class pea plants as well as a wide range of other fruits. They learn that the ovary is the part of the flower that develops into the fruit and reflect on the life cycle of the pea plant.
Lesson 24: Humans -- Measuring My Physical Growth (Spring)
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Rapid physical growth is a natural part of the human life cycle until adulthood.
Children take final measurements and calculate their physical growth since the beginning of the school year.
Lesson 25: Humans -- Measuring My Intellectual Growth (Spring)
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and, eventually, dying. Intellectual growth is a natural part of the human life cycle.
The children review their new science understandings and skills they've learned over the school year. They demonstrate the skill they selected in the fall and practiced all year.
Lesson 26: Comparing Cycles
Big Idea: All living organisms have life cycles that include being born, growing up, reproducing, and eventually, dying.
Children create a "Who Am I?" guessing game using information that they recorded about the life spans, survival needs, and types of changes that humans, trees, pea plants, and butterflies undergo as they grow.
Skill Building Activity 1: Measuring Length and Circumference
Big Idea: You can measure the length of different sides of an object, or the distance around an object, or both, depending on its shape. Measurements are not exact; it's alright to round up or down to the nearest unit and say the object is "about . . . units long."
The children practice measuring the length and circumference of objects and rounding them to the nearest centimeter.
Skill Building Activity 2: Observing and Describing
Big Idea: Observation is a powerful tool for learning about something, and detailed and accurate descriptions help you communicate your observations.
Children practice making accurate and detailed descriptions before and after observing an object.
Skill Building Activity 3: Using Magnifiers
Big Idea: A magnifying lens makes things look larger than they really are. You can use a magnifying lens to examine objects closely and to see details that you might not see without it.
Children learn how to use a magnifying lens, like the ones supplied in the Science Companion kit. There is also an extension in which children learn how to use a jeweler's loupe.
Module Overview: Sound (Level 2 -- Physical Science)
Whether making water ripple with a tuning fork or building their own musical instruments, children explore the world around them to investigate the sounds that permeate their lives.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
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Lessons at a Glance
Lesson 1: Searching for Sound
Big Idea: Sounds are produced by sources all around us. You can describe sounds in a variety of ways.
Children focus on listening carefully and making detailed descriptions of sounds as they become "sound detectives" who search for, identify, and describe sounds in their surroundings.
Lesson 2: What Makes Sound?
Big Idea: All sounds are made by vibrations.
Children explore ideas about how sound is produced. They learn what a vibration is, and that all sounds are produced by vibrations. They vibrate different materials to make a variety of sounds.
Lesson 3: Sound Travels Through Many Things
Big Idea: Sound travels through air and other materials. Sound travels through some materials better than others.
Children establish that sound travels through air. They experiment with sound traveling through different materials, and discover that some substances conduct sound better than others.
Lesson 4: How Sound Travels
Big Idea: Sound travels by causing vibrations in the air or in other materials.
Children demonstrate how the vibration of a sound source can cause vibrations of other materials. This activity is the basis for a basic explanation and discussion of how sound travels.
Lesson 5: Sound Through a String
Big Idea: Sound travels by causing vibrations in the air or in other materials.
Children send secret messages over cup-and-string telephones to explore sound vibrations and sound transmission. While experimenting, they find several ways to affect sound transmission.
Lesson 6: Ears Hear
Big Idea: Sound travels by causing vibrations in the air or in other materials. The shape and parts of the ear allow sound to travel through it so we can hear.
Children enact how sound travels through the three main parts of the ear.
Lesson 7: Exploring Pitch
Big Idea: All sounds are made by vibrations. Changing the vibrations changes the sounds.
Children describe sounds that have different pitches, identify which parts of sound-producing materials vibrate to make a sound, and reflect on the relationship between vibration and pitch.
Lesson 8: Exploring Volume
Big Idea: All sounds are made by vibrations. Changing the vibrations changes the sounds.
Children experiment with different materials to change the volume of sounds, and amplify sounds with a "sound box" and "sound tube." They identify materials that vibrate to make a sound, and consider the relationship between vibration and volume.
Lesson 9: Designing Musical Instruments
Big Idea: You can apply what you know about sound and vibration to design and build musical instruments that can change pitch and volume.
Children apply their knowledge of sound and vibration by using a variety of common materials to design percussion, wind, or stringed instruments that can change pitch and volume.
Lesson 10: Building Musical Instruments
Big Idea: You can apply what you know about sound and vibration to design and build musical instruments that can change pitch and volume.
Children experiment with various materials to build their musical instruments. They redesign their instruments, if necessary, and discuss problems they have implementing their designs.
Lesson 11: Refining Musical Instruments
Big Idea: You can apply what you know about sound and vibration to design and build musical instruments that can change pitch and volume.
Children evaluate, refine and, if necessary, redesign their musical instruments.
Lesson 12: Sharing Instruments
Big Idea: You can apply what you know about sound and vibration to design and build musical instruments that can change pitch and volume.
Children demonstrate their musical instruments, explain what features vibrate to produce sound, and show how to change the pitch and volume. They reflect on the design and building process.
Skill Building Activity 1: Observing and Describing
Big Idea: Observation is a powerful tool for learning about something, and detailed and accurate descriptions help you communicate your observations.
Children practice making accurate and detailed descriptions before and after observing a familiar object.
Module Overview: Rocks (Level 2 -- Earth Science)
One day children examine fossils, another day they might test minerals. As children collect, examine, describe, and experiment with rocks, minerals and fossils, they hone their observation skills and begin to unravel the puzzle of what rocks are and how they are formed.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
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Lessons at a Glance
Lesson 1: What Is a Rock?
Big Idea: What makes a rock a rock?
Children are introduced to the topics of rocks and geology as they sort a collection of rocks and non-rock objects, some of which may be difficult to classify. They discuss what makes a rock a rock and begin a class list of things they know and want to learn about rocks.
Lesson 2: Properties of Rocks
Big Idea: You can learn a lot about an object (a rock or a mineral) by carefully observing and describing its properties.
Children generate a list of rock properties and then describe and record the properties of a single rock. They sort rocks according to different properties, noting similarities and differences among the collection. They use field guides to identify rocks and find out more about their properties.
Lesson 3: Where Do Rocks Come From?
Big Idea: The earth forms and changes rocks. Some of a rock's properties are a result of how it was formed.
Children are introduced to the three main groups of rocks -- igneous, sedimentary, and metamorphic -- and learn about the processes that formed them. They visit three stations, one devoted to each group, and look for rocks that display typical characteristics of that type of rock.
Lesson 4: Rocks Are Made of Minerals
Big Idea: Rocks are made of minerals. Some of a rock's properties are a result of the properties of the minerals it is made of.
Children learn that all rocks are made of minerals. They examine a piece of granite and identify the minerals commonly found in it. They consider how a rock's minerals affect its properties.
Lesson 5: Properties of Minerals
Big Idea: You can learn a lot about an object (a rock or a mineral) by carefully observing and describing its properties. Rocks are made of minerals. Some of a rock's properties are a result of the properties of the minerals it is made of.
Children separate rocks from minerals and begin to explore mineral properties. Each child describes and records some of the properties of a single mineral.
Lesson 6: More Properties of Minerals
Big Idea: You can learn a lot about an object (a rock or a mineral) by carefully observing and describing its properties. Rocks are made of minerals. Some of a rock's properties are a result of the properties of the minerals it is made of.
Children continue exploring the properties of their minerals by trying some tests to determine mineral hardness and streak.
Lesson 7: Minerals as Resources
Big Idea: Minerals provide many of the resources we use.
Children play a game to set the stage for realizing that many objects are made from minerals or mineral products. They conduct a mineral scavenger hunt that reinforces the idea that minerals are important resources.
Lesson 8: Introduction to Fossils
Big Idea: Fossils are rocks that contain evidence of ancient life.
Children examine several fossils and compare them to similar present-day objects. They learn that nearly all fossils are rocks that preserve the shapes and textures of former plants and animals, but generally don't contain any original organic material.
Lesson 9: Mold and Cast Fossils
Big Idea: Fossils are rocks that contain evidence of ancient life. Different types of fossils form in different ways.
Children examine and compare mold and cast fossils. They make models of fossils using small objects, "rock dough," and "rock goo" to learn about how each type of fossil forms in nature.
Lesson 10: Petrified Fossils
Big Idea: Fossils are rocks that contain evidence of ancient life. Different types of fossils form in different ways.
Children discuss how petrified fossils form. They use a mineral-rich solution and sponges to make models of petrified "bones." They excavate their model fossils and compare them with control "bones" treated with plain water.
Lesson 11: A Rock of My Own
Big Idea: You can learn a lot about an object (a rock or a mineral) by carefully observing and describing its properties.
Children culminate their study of rocks and minerals by choosing a rock and creating a book to describe the characteristics that make their rock special.
Skill Building Activity 1: Using Magnifiers
Big Idea: A magnifying lens makes things look larger than they really are. You can use a magnifying lens to examine objects closely and to see details that you might not see without it.
Children learn how to use a magnifying lens, like the ones supplied in the Science Companion kit. There is also an extension in which children learn how to use a jeweler's loupe.
Skill Building Activity 2: Observing and Describing
Big Idea: Observation is a powerful tool for learning about something, and detailed and accurate descriptions help you communicate your observations.
Children practice making accurate and detailed descriptions before and after observing an object.
Skill Building Activity 3: Using Field Guides
Big Idea: You can use a field guide to learn about and identify things in the natural world.
Children learn how to use a field guide to identify and learn about a specimen. This lesson can be done with any type of field guide or specimen.
Module Overview: Habitats (Level 3 -- Life Science)
From going on a nature walk to dissecting owl pellets, children are asked to think about how organisms (plants, animals, fungi, and microscopic living things) survive in the places they live, and how they interact with other living things.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
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Lessons at a Glance
Lesson 1: What's My Habitat
Big Idea: All organisms have basic survival needs: air, food, water, protection, and space. A habitat is the place where an organism gets everything it needs to survive.
Children discuss items they prepare for an imaginary trip, and learn the difference between wants and needs. They evaluate their habitat by sharing how their own basic survival needs are met.
Lesson 2: Who Needs an Oak Tree?
Big Idea: Many organisms share an environment and interact because their habitats overlap.
Children discuss a story about an oak tree and all of the organisms that use the tree in different ways. They place drawings of the organisms on a class mural of an oak tree.
Lesson 3: How a Bird Feeds
Big Idea: Organisms have characteristics that make it possible for them to survive in their habitat.
Children use different tools ("bird bills") to retrieve different types of "bird food." Children experience how different types of bird bills help birds survive in their particular habitats.
Lesson 4: Bird Features
Big Idea: Organisms have characteristics that make it possible for them to survive in their habitat.
Children play a game to figure out which physical characteristics are most likely to belong to birds that live in certain habitats and eat certain foods. In the process, they build their classification skills.
Lesson 5: Owl Food
Big Idea: Many organisms share an environment and interact because their habitats overlap.
Children identify the organisms an owl ate by looking at the skeletal remains in an owl pellet. They try to identify the owl's habitat from what they know about the organisms in its diet.
Lesson 6: Habitat Walk, Habitat Talk: Birds
Big Idea: Organisms have characteristics that make it possible for them to survive in their habitat.
The children observe birds in their local habitat, if possible. They focus on the physical characteristics and behavior of the birds.
Lesson 7: Who Needs a Saguaro?
Big Idea: Many organisms share an environment and interact because their habitats overlap.
Children listen to a book about a saguaro cactus. They discuss how the saguaro resembles an oak tree in the ways that animals use it as part of their habitat and how it differs in other ways.
Lesson 8: How a Cactus Survives
Big Idea: Organisms have characteristics that make it possible for them to survive in their habitat.
Children observe characteristics of a living cactus plant. They compare and contrast the cactus' appearance and functions with other plants, focusing on how different plants retain water.
Lesson 9: Habitat Walk, Habitat Talk: Plants
Big Idea: Many organisms share an environment and interact because their habitats overlap.
Children observe local plants, focusing on the plants' physical characteristics, and learning how local animals depend on the plants.
Lesson 10: What is a Biome?
Big Idea: A biome is a large geographic area that contains many habitats.
Children discuss the difference between a biome (a large geographical area) and a habitat (the place where a particular organism meets its survival needs).
Lesson 11: Researching a Biome
Big Idea: A biome is a large geographic area that contains many habitats.
Children use print and electronic resources to research the characteristics of one of Earth's major biomes. In subsequent lessons they design organisms that could survive in that biome.
Lesson 12: Designing Organisms
Big Idea: You can use what you know about a habitat and a biome to design imaginary organisms that might be able to survive there.
Children collaborate in pairs to design an imaginary animal and plant that share a habitat within the biome they researched.
Lesson 13: Developing an Assessment Rubric
Big Idea: It's useful to have criteria when designing a project.
Children practice using a rubric to evaluate a sample assignment. They collaborate to develop a class assessment rubric that defines what they should include in their animal and plant designs.
Lesson 14: Refining and Modeling Organism Designs
Big Idea: You can use what you know about a habitat and a biome to design imaginary organisms that might be able to survive there.
Groups review one another's organism designs and suggest improvements. Students refine their designs and draw a pictorial model of their imaginary animal and plant organisms.
Lesson 15: Presenting Organism Designs
Big Idea: You can use what you know about a habitat and a biome to design imaginary organisms that might be able to survive there.
Children present their imaginary animal and plant to the class. They share background information about the biome the organisms inhabit, present their models, and explain all the survival characteristics their organisms have that make them well-suited to live in their habitat.
Lesson 16: The Human Habitat
Big Idea: All organisms have basic survival needs: air, food, water, protection, and space. A habitat is the place where an organism gets everything it needs to survive. Many organisms share an environment and interact because their habitats overlap.
Children re-examine their personal habitat and determine how far it extends. They recognize that the human habitat can be global. They also discuss the good and bad habitat changes humans sometimes cause while satisfying their wants and needs.
Skill Building Activity: Using Models in Science
Big Idea: Scientists use models to represent things that are too big, small, fast, slow, far away, or dangerous to observe in the real world.
Children study various types of models and learn how they are used in science. They also make models of their own.
Skill Building Activity: Using Field Guides
Big Idea: You can use a field guide to learn about and identify things in the natural world.
Children learn how to use a field guide to identify and learn about a specimen. This lesson can be done with any type of field guide or specimen.
Module Overview: Light (Level 3 -- Physical Science)
Whether watching light "bend" a pencil in water or building a periscope, the combination of hands-on, multi-sensory learning enables children to understand what light is, how it behaves, and why it makes sight possible.
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
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Lessons at a Glance
Lesson 1: Light Is Everywhere
Big Idea: Light is all around us. If you can see something, then light must be present.
Through a science talk, children examine how they sense light and how they think light moves from place to place. They also draw models, which they refer back to at the end of the unit, that show their ideas about the behavior of light.
Lesson 2: Light and Dark
Big Idea: Light is all around us. If you can see something, then light must be present.
The children examine sources of light and attempt to create total darkness in their classroom. The difficulty of creating an absence of light provides a context for exploring how light travels.
Lesson 3: The Path of Light
Big Idea: Light travels in straight lines. It moves outward in all directions from a source until it hits something.
Children explore how light travels by observing a light beam pass through a cloudy solution, and by creating a model that simulates its straight path.
Lesson 4: Light Bounces
Big Idea: When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it.
Children investigate what happens when light bounces, or reflects, off things. They learn that when light hits an object, it can bounce directly back, creating a mirror-like reflection, or bounce in many directions and scatter.
Lesson 5: Light and the Eye
Big Idea: The eye detects light. You see when light comes into your eye.
Children consider how the eye reacts to differences in light. They learn that we are able to see things because light bounces off of objects and into our eyes. They also observe that the more light there is, the easier it is to see.
Lesson 6: Modeling How Light Travels
Big Idea: Light travels in straight lines. It moves outward in all directions from a source until it hits something. When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it.
Children manipulate periscopes to observe a variety of objects. They consider how the model of reflecting light presented in Lesson 4 applies to their periscope observations.
Lesson 7: Light and Materials
Big Idea: When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it.
Children investigate how much light can "go through" different materials. They experiment with a variety of opaque, transparent, and translucent materials to compare how much light passes through each material.
Lesson 8: Opaque Materials
Big Idea: When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it.
Children learn that opaque materials reflect light, absorb light, or both. They compare opaque materials that reflect light to materials that absorb light. They also discover that sometimes an opaque material can be changed into a translucent material by altering its thickness.
Lesson 9: Transparent Materials
Big Idea: When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it. When light goes through a transparent object, it either goes straight through or changes directions.
Children experiment with transparent materials and gain a deeper understanding that light passes through these materials. They think about how transparent objects reflect light, enabling us to see them. In addition, they see examples of how light can change directions.
Lesson 10: Another Look at Light
Big Idea: Light travels in straight lines. It moves outward in all directions from a source until it hits something. When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it. You see when light comes into your eye.
The children re-evaluate the models of light they drew in Lesson 1. They review their questions about light and reflect on their understanding of light. Using this information, they generate a list of criteria for making models of light, which they use to revise their own initial models.
Lesson 11: Light Extravaganza
Big Idea: Light travels in straight lines. It moves outward in all directions from a source until it hits something. When light hits something, one or more of these three things can happen: the light can bounce off the object, go through it, or be absorbed by it. You see when light comes into your eye.
Children role-play two different scenarios that model the behavior of light. While providing an opportunity for children to apply their understanding of light kinesthetically, this lesson also functions as an in-class, summative assessment of the unit.
Skill Building Activity: Using Models in Science
Big Idea: Scientists use models to represent things that are too big, small, fast, slow, far away, or dangerous to observe in the real world.
Children study various types of models and learn how they are used in science. They also make models of their own.
Module Overview: Our Solar System (Level 3 -- Earth Science)
One day children chart the moon's cycles, another day they might make a scale model of our solar system. By observing the world around them, they address questions such as "Why are there seasons?" and "Why does the moon appear to change shape?"
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Curriculum SamplesClick below for printable (PDF) samples. |
Module Summary
View a printable (PDF) Unit Summary of the module.
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Lessons at a Glance
Lesson 1: Daytime and Nighttime
Big Idea: The sun appears to travel through the sky in a predictable daily pattern.
A science talk that explores children's ideas about the reasons for daytime and nighttime.
Lesson 2: A Sense of Sun
Big Idea: The sun appears to travel through the sky in a predictable daily pattern.
Children use their senses to experience the sun. They consider the sun as Earth's source of light and think about the effect sunlight has on Earth in terms of heat and shadows.
Lesson 3: Watching the Sun for a Day
Big Idea: The sun appears to travel through the sky in a predictable daily pattern.
Children observe the sun several times throughout the day and discern how it seems to move across the sky. In addition, they learn about the variables, such as landmarks and shadows, needed to make accurate observations of the sun.
Lesson 4: The Sun in Fall: Data Collection
Big Idea: The sun appears to travel through the sky in a predictable daily pattern. The apparent path of the sun across the sky changes slowly over a year.
The children use scientific tools to observe shadows and record the sun's position several times during the day. They collect data they will compare to data collected in winter and spring.
Lesson 5: Modeling the Sun in Fall
Big Idea: The sun appears to travel through the sky in a predictable daily pattern. The apparent path of the sun across the sky changes slowly over a year.
Children use flashlights with the sky dome and shadow-recording tool to model the sun's position in the sky throughout the day.
Lesson 6: Our Models of Daytime and Nighttime
Big Idea: The sun appears to travel through the sky in a predictable daily pattern. The sun's daily pattern can be explained by the rotation of Earth.
Children create models that help explain their observations of daytime, nighttime and the sun's apparent movement across the sky during the daytime. They begin to understand that daytime and nighttime are caused by Earth's rotation on its axis.
Lesson 7: Earth Rotates
Big Idea: The sun appears to travel through the sky in a predictable daily pattern. The sun's daily pattern can be explained by the rotation of Earth.
The children use models to discern that the rotation of Earth explains their observations of daytime and nighttime and the apparent movement of the sun across the sky.
Lesson 8: Class Astronomer
Big Idea: The length of daylight slowly changes over the year.
Children collect sunrise and sunset data on a daily, then weekly, basis and calculate elapsed time to determine the length of daylight for each day. They record the data collected and begin to look for patterns as the year progresses.
Lesson 9: Watching the Moon for a Day
Big Idea: Like the sun, the moon appears to move across the sky daily. Sometimes you can see the moon during the day.
Children observe the moon multiple times on a single day and discern how it appears to move across the sky.
Lesson 10: Watching the Moon for a Month
Big Idea: The observable shape of the moon changes from day to day. The moon's cycle takes about a month.
Children learn how to conduct daily observations of the moon and record its shape over one lunar cycle.
Lesson 11: Wondering About the Moon
Big Idea: Wondering about the world leads to scientific investigations and research.
Children wonder about the moon and create a "K-W-P-L" (Know-Want to Know-Predict-Learned) of their ideas. They also think of strategies for researching their ideas about the moon.
Lesson 12: The Moon's Cycle
Big Idea: The observable shape of the moon changes from day to day in a predictable pattern. The moon's cycle takes about a month.
The children review and reflect on the moon phase data they collected over the previous month. They also record their current ideas about what they think causes the moon's cycle.
Lesson 13: Modeling the Moon's Cycle
Big Idea: The moon's shape seems to change from day to day because we see different views of the moon's sun-lit portion as the moon orbits around Earth. The moon's cycle takes about a month, the time it takes for the moon to orbit Earth.
Children practice using a model that explains the cause of the moon's cycle.
Lesson 14: The Sun in Winter: Data Collection
Big Idea: The apparent path of the sun across the sky changes slowly over a year. The length of daylight slowly changes over the year.
Children look at how the sun's apparent path across the sky has changed since their observations in the fall. They observe shadows and record the sun's position several times during the day.
Lesson 15: The Sun in Winter: Modeling and Comparing
Big Idea: The apparent path of the sun across the sky changes slowly over a year. The length of daylight slowly changes over the year.
Children use a flashlight with the sky dome and shadow-recording tool to model the sun's apparent path across the sky throughout the day. This exploration compares and contrasts data collected in the fall and the winter.
Lesson 16: The Sun in Spring: Data Collection
Big Idea: The apparent path of the sun across the sky changes slowly over a year. The length of daylight slowly changes over the year.
Children again use tools to record the sun's position several times during a day.
Lesson 17: The Sun in Spring: Modeling and Comparing
Big Idea: The apparent path of the sun across the sky changes slowly over a year. The length of daylight slowly changes over the year.
Children use a flashlight with the sky dome and shadow-recording tool to model the sun's apparent path across the sky throughout the day. This exploration compares and contrasts data collected in the fall, winter, and spring.
Lesson 18: Predicting the Sun in Summer
Big Idea: The apparent path of the sun across the sky changes slowly over a year. The length of daylight slowly changes over the year.
Children compile all the daylight data they collected over the past six months on a line graph. They then compare the graph to all the other information they collected and make an educated prediction about the sun's pattern in summer.
Lesson 19: Modeling Earth's Orbit Around the Sun
Big Idea: The sun's annual pattern is the result of Earth orbiting the sun once a year.
Children model the yearly orbit of Earth around the sun. They become aware of the tilt of the globe, and consider how Earth's tilt relates to changes in the length of daylight and height of the sun in the sky throughout the year.
Lesson 20: Relative Sizes of the Sun, Moon, and Earth
Big Idea: The sun is a star like all other stars. The sun is the center of our solar system, and Earth is one of nine planets that orbit it.
Children view the comparative sizes of scale models of Earth, the moon, and the sun.
Lesson 21: Wondering About Our Solar System and Beyond
Big Idea: The sun is the center of our solar system, and Earth is one of nine planets that orbit it.
The children wonder about the solar system and create a class "K-W-P-L" (Know-Want to Know-Predict-Learned) chart of their ideas about the solar system and what lies beyond it.
Lesson 22: Stars Outside Our Solar System
Big Idea: The sun is a star like all other stars. Like the sun appears to move across a daytime sky, the stars appear to move across the nighttime sky because Earth rotates on its axis.
After reviewing that the sun is in the center of our solar system, children focus on how stars appear to move across the nighttime sky and discover why we don't see stars during the daytime. This lesson is the first of two that address stars outside our solar system.
Lesson 23: Stars and Planets
Big Idea: The sun is a star like all other stars. The sun is the center of our solar system, and Earth is one of nine planets that orbit it. Like the sun appears to move across a daytime sky, the stars appear to move across the nighttime sky because Earth rotates on its axis.
Children study several pictures of planets and their changing positions against a stable background of stars.
Lesson 24: Researching the Planets
Big Idea: Nine planets orbit around our sun. Each planet has unique characteristics that distinguish it from other planets.
To continue learning about objects in our solar system, children use print and online resources to gather information about a planet they choose to investigate.
Lesson 25: Describing the Planets
Big Idea: Nine planets orbit around our sun. Each planet has unique characteristics that distinguish it from other planets.
Children use the information they gathered from their research in the previous lesson to prepare a creative report describing one of the planets in our solar system.
Lesson 26: The Scale of Our Solar System
Big Idea: Nine planets orbit around our sun. Vast distances exist between the planets.
Children investigate the scale of the solar system, the size of the planets, and how far apart they are relative to the sun.
Skill Building Activity 1: Using Models in Science
Big Idea: Scientists use models to represent things that are too big, small, fast, slow, far away, or dangerous to observe in the real world.
Children study various types of models and learn how they are used in science. They also make models of their own.
Skill Building Activity 2: Building to Scale
Big Idea: Scale models represent real objects but are different sizes than the actual object. Scientists make scale models to help them look at something that is hard to study otherwise.
Children think about when changes of scale might be useful in making scientific models. Then they use pattern blocks to make shapes at larger scales, and talk about the fractions that identify the scales they used. Children share toys that represent real objects, comparing the scales of similar objects, and creating models with objects of the same or similar scale.
Skill Building Activity 3: Making Line Graphs
Big Idea: Line graphs are charts that measure how data changes over a period of time.
This activity provides a basic introduction on how to organize data on a line graph and how to use it as a tool to understand the data displayed. The children learn how to make educated predictions, a skill needed for many science activities.
Skill Building Activity 4: Elapsed Time
Big Idea: Elapsed time can be calculated by adding the number of hours and minutes that have passed between a beginning and ending time.
Children explore measuring time by using a paper clock or Judy Clock to calculate the amount of time that elapses between various starting and ending times.
Module Overview: Nature's Recyclers (Level 4 -- Life Science)
From watching composting worms create soil, to modeling the nutrient cycle, students have the opportunity to use their investigations to understand the organisms that carry out the process of decomposition and recycle nutrients in an ecosystem.
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Curriculum SamplesClick below for printable (PDF) samples. |