STEM2U

Cleaning Earth's Water

Learn about the importance of the Earth’s most precious resource - water! Students will see first-hand how little fresh water there is on Earth and how to create their own filtration system to help clean it.

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Materials Needed:

• plastic cups
• styrofoam cups
• coffee filters and/or other filtration items (pieces of cloth, cotton, paper towels, filter paper)
• rubber bands
• prepared dirty water

Standards Connection:

• DCI:
  • ESS3.A Natural Resources
  • ESS3.C Human Impacts on Earth Systems
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
  • Constructing explanations and designing solutions
• CCC: Systems and System Models

Creating Craters

Students will learn about impact craters as they create their own and measure the destruction caused by them. They will test various sized meteors and compare their impact. Students will also create variable situations for meteors and record data on the impact of those variables.

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Materials Needed:

• large baking pan or shallow cardboard box
• flour (enough to fill the pan/box)
• balls (various sizes)
• ruler
• meter stick
• paper towels
• beach towel or craft paper under pan/box
• paper and pencil
• optional: cocoa powder (enough to create a thin layer on top of the flour)
• optional: sieve or sifter (only need if you are using the cocoa powder)

Standards Connection:

• DCI: PS3.A Definitions of Energy
• SEP: Planning and Carrying Out Investigations: Make observations to produce data to serve as the basis for evidence for an explanation of a phenomenon or to test a design solution.
• CCC: Energy and Its Matter: Energy can be transferred in various ways and between objects.
• 3-5-ETS1-3: Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.

Earthquake Structures

Students will work in teams to discover and build structures that demonstrate how engineers construct buildings to survive powerful forces such as earthquakes.

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Materials Needed:

Per class:

• 1-4 pans of jello (for simulating an earthquake and testing structures)

Per group:

• 30 toothpicks
• 30 mini marshmallows

Standards Connection:

• DCI: ETS1-3 Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved
• SEP: Planning and Carrying Out Investigations: Planning and carrying out investigations to answer questions or test solutions to problems in 3-5 builds on K-2 experiences and progresses to include investigations that control variables and provide evidence to support explanations or design solutions.
• CCC: Influence of Engineering, Technology, and Science on Society and the Natural World
  

Erosion: Nature's Creative Canvas

In this lesson, students get hands-on with the gritty details of how rocks tumble in a river. They'll be tearing up construction paper, playing the role of a river, and figuring out why beaches end up covered in sand. It's not your typical class—it's more like a rock 'n' roll investigation!

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Materials Needed (per group of 3-4 students):

• 1 printed template
• purple construction paper

Standards Connection:

DCI: ESS2.A: Earth Materials and Systems – Wind and water can change the shape of the land.

SEP: Developing Models – Develop a model to represent patterns in the natural world.

CCC: Stability and Change – Things may change slowly or rapidly.

Filtration Investigation

Water is everywhere and it is our planet’s most valuable resource. Students will learn just how little available water humans have and the importance of keeping it clean when they are presented with an issue of our city’s water being contaminated. They will have to work together to learn ways our water could become contaminated, how we can prevent it from happening and most importantly, how to clean the sample they have been given of the contaminated water.

*This is lesson 1 of 2 of a mini water pollution unit. Classes are encouraged to join us for both weeks, but it is required.

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Materials Needed (per group):

• 2-liter bottle, cut in half (ask students to bring them in from home)
• 3-inch square mesh (fine nylon screen or fine cheese-cloth)
• rubber band
• 1 long stirring utensil (a chopstick works great)
• filter materials (your choice, whatever you have available)
  • filter paper
  • coffee filters (at least 6 inches in diameter)
  • sand
  • large and small pebbles
  • cotton balls
  • cloth
  • any other materials
• measuring cups
• polluted water (prepared by teacher a couple days ahead of time)*

*Teacher preparation tips:

• You will want something to stir the polluted water really well the day of the lesson.
• Recommend making it in a gallon jug with a lid. You would probably need about 2 full jugs per class.
• The following items are pollutant suggestions, but you can put anything into your polluted water that you’d like to:
  • water (about ¾ of a jug)
  • green liquid food coloring
  • soil
  • organic matter (like orange rinds and grass)
  • detergent
  • vinegar
  • baking soda
  • salt
  • pepper
  • foam peanuts
  • shreds of newspaper
  • etc.

Standards Connection:

• DCI: ESS2.C: The Roles of Water in Earth’s Surface Processes – Nearly all of Earth’s available water is in the ocean. Most fresh water is in glaciers or underground; only a tiny fraction is in streams, lakes, wetlands, and the atmosphere.
• SEP: Planning and carrying out investigations – Conduct an investigation using fair tests in which variables are controlled and the number of trials considered.
• CCC: Scale, Proportion and Quantity – Natural objects and/or observable phenomena exist from the very small to the immensely large.
  

Greenhouse Effect

Bring the environment into your classroom as students create and investigate models of the greenhouse effect and compare them to our atmosphere.

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Materials Needed:

• 5 jars (preferably glass, but you could make other types work)
  • 3 jars are control variables (so for classes, teachers can have these 3 jars)
  • 2 jars per group of students

Per group:

• white vinegar
• baking soda
• measuring
• spoons
• measuring cups
• plastic cling wrap
• rubber bands (large enough to fit over the mouth of the jars)
• heat source (like a heat lamp, space heater, or direct sunlight)
• masking
• tape
• sharpie
• thermometer (preferably non-contact infrared thermometer; a standard thermometer would work, but you’d need one for each different jar)

Standards Connection:

• DCI: ESS3.C: Human Impact on Earth Systems – Human activities in agriculture, industry, and everyday life have had major effects on the land, vegetation, streams, ocean, air, and even outer space.
• SEP: Obtaining, Evaluating and Communicating Information – Obtain and combine information from books and/or other reliable media to explain phenomena or solutions to a design problem.
• CCC: System and System Models – A system can be described in terms of its components and their interactions.
  

Landing on the Moon and Planets

Do you have what it takes to land a rocket on the moon or another planet? Students will build their straw rockets and then investigate the effect of different angles on the trajectory of their rockets. This lesson has a great connection to elementary measurement and geometry standards.

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Materials Needed:

Per student:

• flexible straw
• scissors
• tape
• straw rocket template

Per group of 3 to 6 students:

• 3 paper plates
• moon and planets template

Standards Connection:

DCI: ESS1.B Earth and the Solar System - The movement of the Earth, Sun, and Moon cause observable patterns.

SEP: Plan and carry out an investigation - Make observations to produce data to serve as the basis for evidence for an explanation of a phenomenon or to test a design solution.

CCC: Influence of Engineering, Technology, and Science on Society and the Natural World - Engineers improve existing technologies or develop new ones to increase their benefit, to decrease known risks, and to meet social demands.

Lunar Lander

Designing a device to land on the moon is a tough challenge, but can your students also account for the thrust a design needs to have a safe lunar landing?

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Materials Needed:

• balloons
• small binder clip
• Lander Materials:
  • paper cup
  • straws
  • foam
  • tape
  • pipe cleaners
  • construction paper
  • cardboard
  • mini marshmallows

Standards Connection:

• DCI:
  • PS2.A Forces and Motion
  • PS2.B Types and Interactions
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
• CCC: System and System Models

Ocean Pollution Grabber

Students will design a device to grab ocean pollution from the water.

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Materials Needed:

• craft sticks
• rubber bands
• tape
• cardboard pieces
• plastic spoons
• small paper cups
• construction paper
• paper tubes
• straws
• paper clips

Standards Connection:

• DCI: ESS3-1 Obtain and combine information about ways individual communities use science ideas to protect the Earth’s resources and environment.
• SEP: Obtaining, Evaluating and Communicating Information: Obtain and combine information to explain phenomena or solutions to a design problem.
• CCC: Science Addresses Questions About the Natural and Material World: Science findings are limited to questions that can be answered with empirical evidence.
  

Paper Plate Greenhouse

This week, students will explore seed germination by testing different materials, such as soil, cotton, or paper towels, to determine which supports growth best. They can also experiment with a variety of seed types to compare germination rates or combine both approaches for a more in-depth investigation. This hands-on project fosters curiosity and critical thinking while teaching fundamental concepts of plant biology and experimental design.

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Materials Needed (per student or group):

• paper plates
• plastic bags
• yarn
• lima beans (or other seeds that sprout quickly)
• paper towels
• cotton balls
• copy paper
• water
• paper
• scissors
• art supplies (optional)
• window suction cups with hooks (for hanging the greenhouses)
  

Standards Connection:

• DCI:
  • LS1.A Structure and Function
  • LS1.B Growth
• SEP:
  • Developing and using models
  • Planning and Carrying Out Investigations
• CCC: Structure and Function
  

Rock n' Roll

Let’s get rockin’ with hands-on learning about types of rocks, and weathering and erosion!

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Materials Needed:

• broken crayons
• scissors
• aluminum foil
• cup of hot water
• plastic knife
• timer
• food coloring
• eye dropper
• sugar cubes
• plastic container

Standards Connection:

• DCI:
  • ESS2.A Earth Materials and Systems
  • ESS2.C The Roles of Water in Earth’s Surface Processes
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
  • Constructing explanations and designing solutions
• CCC: Patterns
  

Rotation and Revolution

Students will design a working model to demonstrate how Earth rotates and revolves in the solar system.

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Materials Needed (per group):

• 2 styrofoam balls (one larger and one smaller)
• playdoh
• glue/tape
• straws
• pipe cleaner
• toothpicks
• paper plate
• markers
• paper clips/brass clips
• paper tubes

Standards Connection:

• DCI: ETS1-3 Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.
• SEP: Planning and Carrying Out Investigations: Plan and conduct an investigation collaboratively to produce data to serve as the basis for evidence using fair tests.
• CCC: Influence of Engineering, Technology, and Science on Society and the Natural World
  

Rover Retrieval

Students will first learn about the Apollo moon missions and their landing sites. Then, students will be challenged to design, build, and test a contraption that can deposit a moon rover into the middle of the Apollo Impact Crater.

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Materials Needed (per group):

• small cup
• 4 rubber bands
• 6 ft. of string
• 1 piece of paper
• 1 ft. of tape
• scissors
• For the crater
  • string
  • 8 oz. cup
  • ball

Standards Connection:

• DCI: ESS1.B Earth and the Solar System - The movement of the Earth, Sun, and Moon cause observable patterns.
• SEP: Constructing Explanations and Designing Solutions - Apply scientific ideas to solve design problems.
• CCC: System and System Models - A system can be described in terms of its components and their interactions.
• 3-5-ETS1-3: Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.
  

Space Shelters

While space travel is growing, humans must find a way to live safely on other planets without risking harmful exposure to UV rays. Students will explore designs to keep space travelers safe from direct UV rays.

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Materials Needed:

• 1 pipe cleaner
• UV beads (to put on pipe cleaner to make space person)
• UV light source (UV flashlight or direct sunlight)
• Various Craft Materials:
  • cardboard
  • aluminum foil
  • craft sticks
  • index cards
  • newspaper
  • construction paper
  • tape
  • pencil and paper

Standards Connection:

• DCI:
  • PS4.A Wave Properties
  • PS4.B Electromagnetic Radiation
• SEP:
  • Asking questions and Defining Problems
  • Planning and Carrying Out Investigations
  • Constructing explanations and designing solutions
• CCC: Patterns

Sundial

Students will learn about the importance and cause of the autumnal equinox. They will then build their own sundial and explore how it works.

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Materials Needed:ž

• paper plate
• straw
• glue stick
• scissors
• tape
• pencilž
• Simple Sundial template (PDF)
  *If you can’t print the template, we will show you how to draw it with a ruler.
• compass or phone app that will allow you to find North (for teacher use)

Volcanoes

Students will design and build a volcano focusing on the physical and chemical changes that occur within the volcano during an eruption.

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Materials Needed (per group):

• plastic Solo cup
• aluminum foil
• plastic bin/sink
• paper plate
• toilet paper tube
• baking soda
• vinegar
• construction paper
• masking tape
• measuring spoons

Standards Connection:

• DCI: PS1-4 Construct an argument with evidence that some changes caused by heating or cooling can be reversed and some cannot.
• SEP: Planning and Carrying Out Investigations: Planning and carrying out investigations in K-2 builds on prior experiences and processes to simple investigations.
• CCC: Energy and Matter: Objects may break into smaller pieces and be put together into larger pieces or may change shapes.

Water Wheels

For thousands of years, humans have been harnessing the power of water. In this lesson, students will learn how water is used to create electricity, then design and test their own water wheel.

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Materials Needed (per student or group):

• 2 disposable plates (Styrofoam recommended) or 2-liter bottle (for the body of the water wheel)
• wooden dowel or skewer
• tape
• string
• small cup
• misc. building materials (such as small disposable cups, spoons, small bowls, paper clips, index cards, etc.)
• For testing water wheels
  • water
    
  • large waterproof container (like a sink or plastic storage bin)
  • pitcher or water jug (to create flowing water)

Standards Connection:

• DCI: PS3.A Definitions of Energy
  • Energy can be moved from place to place by moving objects.
• SEP: Constructing explanations and designing solutions
  • Apply scientific ideas to solve design problems.
• CCC: Energy and Matter
  • Energy can be transferred in various ways and between objects.
    

Webb's Telescope

Students will be challenged to construct a model of the James Webb Telescope and then design a way to pack it and deploy it using only string and tape.

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Materials Needed (per group):

• 1 paper towel or toilet paper tube
• 1 golden mirror card
• 1 solar shield card
• tape
• string
• scissor

Standards Connection:

• DCI: ETS1-2 Generate and compare multiple solutions to a problem based on how well each is likely to meet the criteria and constraints of the problem.
• SEP: Planning and Carrying Out Investigations: Planning and carrying out investigations to answer questions or test solutions to problems in 3-5 builds on K-2 experiences and progresses to include investigations that control variables and provide evidence to support explanations or design solutions.
• CCC: Influence of Engineering, Technology, and Science on Society and the Natural World

Wind Turbines

Students will learn about alternative energy sources as they design and build working wind turbines. Students will test various structures within their turbines to create the most effective design.

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Materials Needed:

• water or Gatorade bottles (partially filled)
• straws
• string
• plates
• nuts/bolts
• dowel rods
• plastic spoons
• foam pieces
• cups
• tape
• index cards
• toothpicks
• cut pool noodles
• any other materials to build

Standards Connection:

• DCI:
  • PS3.B Conservation of Energy and Energy Transfer
  • ESS3.A Natural Resources
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
  • Constructing explanations and designing solutions
• CCC: Cause and Effect

Back to School Design Challenge: Name Tags

Introduce students to the Engineering Design Process with this engaging lesson. Students create a name tag with specific criteria and constraints, including a movable part, a shape/design that represents an interest of the student, the ability to hold a pencil, and so much more!

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Materials Needed:

• blank paper
• pencil
• scissors
• glue
• tape
• ruler
• straws
• markers, crayons, or colored pencils
• brass tacks, binder clips, or paper clips
• extra construction paper, cardboard, or other creative crafting supplies
  

Standards Connection:

• DCI: 3-5 Engineering Design
  • Define the criteria and constraints of a design problem with sufficient precision to ensure a successful solution.
• SEP: Asking Questions and Defining Problems
  • Specifying relationships between variables and clarifying arguments and models.
• CCC: Influence of Science, Engineering, and Technology on Society and the Natural World
  • The uses of technologies and limitations on their use are driven by individual or societal needs, desires, and values.
    

Balloon Car

Students will explore balanced and unbalanced forces while they create balloon-powered cars. Students will get to experience Newton’s third law firsthand as they work to get their car to move.

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Materials Needed:

• balloon
• straw
• rubber band
• tape
• scissors
• bamboo skewers or toothpicks (something to go through the straw to act as an axle)
  
• materials for the body (ex. small box, bottle, popsicle sticks, etc.)
• materials for wheels (ex. water bottle lids, etc.)
• Balloon Car Challenge worksheet (PDF) - Optional

Bridge to Safety

Students explore how wildlife crossings can promote safety for both animals and humans. They will design and construct a model bridge that provides a safe path for animals to cross busy areas, considering real-world challenges like durability and habitat needs. Through hands-on problem-solving, students will develop critical thinking and engineering skills while learning about conservation and environmental stewardship.

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Materials Needed (per group):

• 2 pieces of paper
• 3 rubber bands
• 4 pipe cleaners
• 10 mailing labels (or 1 roll of scotch tape)
• 10 toothpicks
• 10 straws
• scissors
• ruler
• a stack of books (for testing the bridge)
• small plastic or stuffed animals (for testing the bridge)
  

Standards Connection:

• DCI:
  • LS4.D Biodiversity and Humans
  • ETS1.B Developing Possible Solutions
  • LS2.C Ecosystem Dynamics, Functioning, and Resilience
• SEP: Constructing Explanations and Designing Solutions
• CCC: Stability and Changer

Bucket Tower Challenge

Students will take their tower-building skills to new heights with this challenge. Not only will they construct towers with limited materials, but they will have the added challenge of supporting a load-bearing bucket!

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Materials Needed (per group):

• One 3-oz. cup with two holes punched on opposite sides (using hole punch)
• 36 inches of string
• 20 straws
• tape
• something to add weight to cup (ex. pennies or washers)

Standards Connection:

• DCI: 3-5 Engineering Design: Plan and carry out fair tests in which variables are controlled.
• SEP: Planning and Carrying Out Investigations: Carry out investigations that control variables and provide evidence to support explanations or design solutions.
• CCC: Influence of Science, Engineering, and Technology on Society and the Natural World: The uses of technologies and limitations on their use are driven by individual or societal needs, desires, and values.

Cleaning Earth's Water

Learn about the importance of the Earth’s most precious resource - water! Students will see first-hand how little fresh water there is on Earth and how to create their own filtration system to help clean it.

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Materials Needed:

• plastic cups
• styrofoam cups
• coffee filters and/or other filtration items (pieces of cloth, cotton, paper towels, filter paper)
• rubber bands
• prepared dirty water
  

Standards Connection:

• DCI:
  • ESS3.A Natural Resources
  • ESS3.C Human Impacts on Earth Systems
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
  • Constructing explanations and designing solutions
• CCC: Systems and System Models

Earthquake Structures

Students will work in teams to discover and build structures that demonstrate how engineers construct buildings to survive powerful forces such as earthquakes.

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Materials Needed:

Per class:

• 1-4 pans of jello (for simulating an earthquake and testing structures)

Per group:

• 30 toothpicks
• 30 mini marshmallows

Standards Connection:

• DCI: ETS1-3 Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved
• SEP: Planning and Carrying Out Investigations: Planning and carrying out investigations to answer questions or test solutions to problems in 3-5 builds on K-2 experiences and progresses to include investigations that control variables and provide evidence to support explanations or design solutions.
• CCC: Influence of Engineering, Technology, and Science on Society and the Natural World
  

Hold the Pie Challenge

Celebrate Pie Day with a creative engineering twist! Instead of just eating pies, students will design and construct their own pies using provided materials. Next, they'll rise to the challenge of building a freestanding structure as tall as possible to support their pie on top, without attaching it to the structure. This activity encourages creativity, problem-solving, and teamwork while exploring concepts like balance, stability, and design.

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Materials Needed (per student or group):

Pie materials:

• 1 paper plate
• 1 package of pom-poms
• glue
• crayons or markers
  

Structure materials:

• 6 paper straws
• 4 pipe cleaners
• 4 craft sticks
• 3 index cards
• 2 sheets of paper
• 1 cardboard tube
• 12 inches of tape

Standards Connection:

• DCI: ETS1.B Developing Possible Solutions
• SEP: Using Mathematics and Computational Thinking
• CCC: Scale Proportion and Quantity
  

Leprechaun Traps

Feeling lucky enough to catch a leprechaun? Join us as we put engineering to the ultimate test when we design traps to catch the sneaky little leprechauns.

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Materials Needed:

• cardboard
• boxes (shoe boxes, cereal boxes)
• tape
• scissors
• craft sticks
• cups/bowls/paper plates
• pipe cleaners
• string
  

Standards Connection:

• DCI:
  • PS2.A Forces and Motion
  • PS2.B Types of Interactions
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
  • Constructing explanations and designing solutions
• CCC: Scale, Proportion and Quantity
  

Lunar Lander

Designing a device to land on the moon is a tough challenge, but can your students also account for the thrust a design needs to have a safe lunar landing?

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Materials Needed:

• balloons
• small binder clip
• Lander Materials:
  • paper cup
  • straws
  • foam
  • tape
  • pipe cleaners
  • construction paper
  • cardboard
  • mini marshmallows

Standards Connection:

• DCI:
  • PS2.A Forces and Motion
  • PS2.B Types and Interactions
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
• CCC: System and System Models

Melting Peeps with Solar Ovens

Students will design, build and test their own solar ovens to see if they can get the temperature inside to be warm enough to melt candy like peeps or chocolate.

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Materials Needed (per group):

• pizza box or other shallow box to construct solar oven
• cooking ingredients like peeps, chocolate, marshmallows, or ice
• scissors
• tape
• glue
• thermometer (optional but helpful)
• a bright light (optional but helpful)
• miscellaneous building materials such as:
  • construction paper of various colors
  • aluminum foil
  • plastic wrap
  • wax paper
  • extra cardboard
    

Standards Connection:

• DCI: PS3.B: Conservation of Energy and Energy Transfer
• SEP: Constructing Explanations and Designing Solutions: Apply scientific ideas to solve design problems.
• CCC:
  • Energy and Matter: Energy can be transferred in various ways and between objects.
  • 3-5-ETS1-3: Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.

Papa's Mechanical Fish

Students learn science from literature as we read Papa’s Mechanical Fish and discuss the importance of failures in engineering. As we dive into submarine science, students will apply the concepts of buoyancy and density to this underwater engineering challenge. Using the idea of biomimicry, students will be challenged to design and build a working submarine. As scientists and engineers, we constantly turn to the world around us for solutions to our problems. In this lesson, students will research features of different ocean animals that allow them to successfully navigate the water. Groups will use the features they learn about to design and build the ultimate submarine.

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Materials Needed (per student):

• mini bottled waters
• plastic container (shoebox size or larger)
• tape
• other recyclable materials
• scissors
• disposable cups
• disposable plates
• permanent markers
  

Standards Connection:

• DCI: PS1.A Structure and Properties of Matter

• SEP: Developing and Using Models

• CCC: Cause and Effect
  

Pinball Machine

Students will observe first-hand what happens to energy when objects collide on their pinball prototypes. We will use evidence from our observations to answer questions regarding the relationship of the speed of an object and its energy.

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Materials Needed:

• cardboard lid or large piece of cardboard
• large rubber band
• tape
• Sharpie marker
• marble
• a variety of craft materials for obstacles/traps (ex. paper cups, toothpicks, toilet paper rolls, scissors, craft sticks)

Pumpkin Chunking

Who doesn’t love pumpkin chunking? Students will design, build, and test their own pumpkin catapults using basic materials and little candy corn pumpkins.

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Materials Needed:

• 7 craft sticks
• 4 rubber bands
• 1 water bottle lid
• small candy pumpkins or small pom-poms
• hot glue gun (for teacher use)

Reinventing Rubbish

A STEM Lesson in Sustainable Solutions

Let’s get ready to celebrate Earth Day by upcycling various plastic containers to give them a new purpose. Get ready to be impressed with students' wonderful ideas for keeping plastics out of oceans and landfills.

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Materials Needed:

• plastic grocery bags
• miscellaneous materials (i.e. plastic bottles, food containers, etc.) students can upcycle into a new product
• other misc. materials and tools such as:
  • scissors
  • glue
  • tape
  • paper/index cards

Standards Connection:

• DCI: ESS3.C: Human Impacts on Earth Systems – Develop solutions to human
  activities that impact the environment.
• SEP: Constructing explanations and designing solutions – Apply scientific ideas to solve problems.
• CCC: Systems and system models – A system can be described in terms of its components and their interactions.
  

Robotic Hand

Many different robots are built from models designed after humans and/or things in nature; robotic arms are no different. For a robotic hand to work just as well as a human hand, it needs to function exactly like the bones, muscles, and tendons of a human hand do.  

With robots becoming increasingly popular, even the North Pole is recruiting robotic help this winter! After learning about the anatomy of a hand, students will design and build a robotic hand. Each robotic hand will face a challenge from the North Pole to move a set of presents to a designated location.

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Materials Needed:

• cardboard
• string
• straws
• clear tape
• ruler
• pencil
• glue
• small, light objects to pick up (ex., small foam blocks or balls)
  

Standards Connection:

• DCI: ETS1.B Developing Possible Solutions
• SEP: Developing and Using Models
• CCC: Influence of Science, Engineering, and Technology on Society and the Natural World
  

Rocket Boosters

Companies like SpaceX and Blue Origin have been trying to make spaceflight cheaper. They just designed reusable rocket boosters to accomplish their goals, but they need a team of engineers to help them recover the rocket boosters after a spacecraft's launch.  

A rocket booster burning up in the atmosphere or crashing down on Earth is no longer acceptable. Engineers at their companies have been left spaced-out with how to recover the rocket boosters gently so they don’t get damaged and can be reused.

Your team has been hired to design, build, and test a rocket-catching device while following the Engineering Design Process. Our aerodynamics student engineers must carefully consider a range of STEM concepts, like energy and force, to successfully catch their rocket standing up.

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Materials Needed:

Rocket Booster:

• cardstock or 1 paper towel tube
• tape
• markers

Rocket Booster Catcher:

• paper (printer, notebook, or construction – NO cardstock)
• 12x12 pieces of cardboard
• string
• paperclips
• tape

Standards Connection:

• DCI: ETS1.B Developing Possible Solutions

• SEP: Developing and Using Models

• CCC: Influence of Science, Engineering, and Technology on Society and the Natural World
  

Space Shelters

While space travel is growing, humans must find a way to live safely on other planets without risking harmful exposure to UV rays. Students will explore designs to keep space travelers safe from direct UV rays.

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Materials Needed:

• 1 pipe cleaner
• UV beads (to put on pipe cleaner to make space person)
• UV light source (UV flashlight or direct sunlight)
• Various Craft Materials:
  • cardboard
  • aluminum foil
  • craft sticks
  • index cards
  • newspaper
  • construction paper
  • tape
  • pencil and paper

Standards Connection:

• DCI:
  • PS4.A Wave Properties
  • PS4.B Electromagnetic Radiation
• SEP:
  • Asking questions and Defining Problems
  • Planning and Carrying Out Investigations
  • Constructing explanations and designing solutions
• CCC: Patterns

Toothpick Bridge

Students will focus on the strength of triangles in engineering to construct a toothpick bridge that can withstand the most weight.

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Materials Needed (per group):

• 50-100 toothpicks
• ruler
• various fastener materials (clay, foam, playdough, marshmallows, gummy candies, glue)
• several textbooks of about the same size
• 2 AA batteries
• 1.5-3 V DC Motor
  

Standards Connection:

• DCI: ETS1-3 Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.
• SEP: Planning and Carrying Out Investigations: Planning and carrying out investigations to answer questions or test solutions to problems in 3-5 builds on K-2 experiences and progresses to include investigations that control variables and provide evidence to support explanations or design solutions.
• CCC: Influence of Engineering, Technology, and Science on Society and the Natural World
  

Unplugged 3D Printing Adventure

Students will dive into the world of 3D printing without ever touching a 3D printer. This tech-free lesson teaches students the fundamentals of 3D printing and additive manufacturing as they create their own 3D model of an object.

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Materials Needed:

• foam board
• rulers
• pipe cleaners
• pencils
• glue
• a variety of small objects with relatively simple shapes for students to choose from, such as:
  • balls
  • bowls
  • bottles
  • cups

Standards Connection:

DCI:

ETS1.B: Developing Possible Solutions – Tests are often designed to identify failure points or difficulties, which suggest the elements of the design that need to be improved.

ETS1.C: Optimizing the Design Solution – Different solutions need to be tested in order to determine which of them best solves the problem, given the criteria and constraints.

SEP: Planning and Carrying Out Investigations – Plan and conduct and investigation collaboratively.

CCC: Influence of Science, Engineering, and Technology on Society and the Natural World – Peoples’ needs and wants change over time, as do their demands for new and improved technology.

Wild Wellness Wonders

Applying Biomed Tech to Enhance Animal Health

Students will learn about the connection between structure and function of external parts when they become biomedical engineers that design prosthetic limbs for injured sea creatures.

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Materials Needed:

• pen / pencil
• paper
• small items to pick up (like coins or paper clips)
• tape
• string
• wind-up bath toys shaped like sea animals (1 per group of students)
• plastic containers with water for testing prosthetic limbs
• scissors
• miscellaneous materials for creating and attaching the prosthetic limbs such as:
  • card stock
  • index cards
  • assortment of plastic lids
  • rubber bands
  • glue
  • pliers or multi-purpose snips (for teacher use only)
  • hot glue gun and sticks (for teacher use only - optional)

Standards Connection:

• DCI: LS1.A: Structure and Function - Plants and animals have both internal and external structures that serve various functions in growth, survival, behavior, and reproduction.
• SEP: Constructing explanations and designing solutions - Apply scientific ideas to solve design problems.
• CCC: Structure and Function - The way something is shaped and its substructure determine many of its properties and functions.

Beaver Dams

Students will discover how animals change the land over time and the impact it causes as they design, build and test beaver dams.

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Materials Needed:

• water
• mini paint tray (or other container)
• sticks
• rocks
• air dry clay
• paper and pencil

Standards Connection:

• DCI:
  • LS2.C Ecosystem dynamics, functioning and resilience
  • LS2.A Interdependence relationships in ecosystems
• SEP:
  • Asking questions and Defining Problems
  • Developing and Using Models
  • Planning and Carrying Out Investigations
  • Analyzing and Interpreting Data
  • Obtaining, Evaluating and Communicating Information
• CCC: Cause and Effect

Bird Beak Data Buffet

The perfect interdisciplinary lesson to get students intrigued about animal adaptations. Students have the opportunity to make sense of the data they collect by analyzing it in charts and graphs. This lesson is a great integration of science and math!

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Materials Needed:

Per group:

• large bucket/bin (to hold all of the “bird food”)

• timer

• 40 rubber bands, various sizes

• 40 paper clips, various sizes

• 40 toothpicks

• 40 macaroni noodles

• 1 binder clip (or you could give each student a binder clip and have them each be various sizes)

• 1 set of tweezers

• 1 set of safety scissors

• 4 plastic cups

Per student:

• student data sheet (emailed)

• 1 plastic spoon

• pencil

• crayons/colored pencils

• ruler (optional)

• calculator (optional for younger students)
  

Standards Connection:

• DCI: LS4.B: Natural Selection
  • Sometimes the differences in characteristics between individuals of the same species provide advantages in surviving, finding mates, and reproducing. (3-LS4-2)
• SEP: Planning and Carrying out Investigations
  • Plan and conduct an investigation collaboratively to produce data to serve as the basis for evidence, using fair tests in which variables are controlled and the number of trials considered. (3-5-ETS1-3)
• CCC: Cause and Effect
  • Cause and effect relationships are routinely identified and used to explain change.
• 3-5-ETS1-3: Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.

Math Connection:

• KY.3.MD.3: Investigate questions involving categorical data.
  • Identify a statistical question focused on categorical data and gather data;
  • Create a scaled pictograph and a scaled bar graph to represent a data set (using technology or by hand);
  • Make observations from the graph about the question posed, including “how many more” and “how many less” questions.

Enchanted Creature Parade

Students will be introduced to the history behind the Macy’s Thanksgiving Day parade with Balloons Over Broadway: The True Story of the Puppeteer of Macy’s Parade by Melissa Sweet. Students will then design and build a never-before-seen creature, demonstrating how its external structures help it survive, while using criteria and constraints. Bonus challenge included.

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Materials Needed (per student):

• pom-poms
• pipe cleaner
• glue / tape
• tissue paper, construction paper, cardboard
• tissue / paper towel rolls
• string
• straws
• small cups
• googly eyes
• cotton balls
• additional items of your choice

Standards Connection:

• DCI: LS1-Struture and Function - Construct an argument that plants and animals have internal and external structures that function to support survival, growth, behavior, and reproduction.
• SEP: Engaging in Argument from Evidence - Construct an argument with evidence, data, and/or a model.
• CCC: Systems and System Models - A system can be described in terms of its components and their interactions.
  

Hand Pollinators (a.k.a. Collecting Pollen)

Students will design and build a hand pollinator using selected materials. The pollinators will compete to see which one can carry the most “pollen” to a flower.

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Materials Needed (per student):

• small plate of colored juice mix (Kool-Aid or lemonade)
• Flower materials:
  • coffee filter
  • markers
  • spray bottle with water
  • 5 cotton balls
  • glue
• Pollen Collector materials:
  • jumbo craft stick
  • 2 ft of masking tape
  • pom-poms
  • Q-tips

Standards Connection:

• DCI:
  • LS4.D Biodiversity and Humans
  • ETS1.B Developing Possible Solutions
• SEP: Constructing explanations and designing solutions
• CCC: Structure and Function
  

Heart Rate Revelations

Unlocking the Secrets of Heartbeat Patterns

What better way to celebrate Valentine’s Day than learning about the heart! In addition, students will conduct an experiment to investigate how movement affects their heart rate.

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Materials Needed:

• timers or clock with second hand
• calculators

Standards Connection:

• DCI: LS1.A: Structure and Function – Plants and animals have both internal and external structures that serve various functions in growth, survival, behavior, and reproduction.
• SEP: Planning and carrying out investigations – Make observations and measurements to produce data to serve as the basis for evidence for an explanation.
• CCC: Structure and Function – The way something is shaped and its substructure determine many of its properties and functions.

Robotic Hand

Many different robots are built from models designed after humans and/or things in nature; robotic arms are no different. For a robotic hand to work just as well as a human hand, it needs to function exactly like the bones, muscles, and tendons of a human hand do.  

With robots becoming increasingly popular, even the North Pole is recruiting robotic help this winter! After learning about the anatomy of a hand, students will design and build a robotic hand. Each robotic hand will face a challenge from the North Pole to move a set of presents to a designated location.

Request access to 'Robotic Hand'.

More

Materials Needed:

• cardboard
• string
• straws
• clear tape
• ruler
• pencil
• glue
• small, light objects to pick up (ex., small foam blocks or balls)
  

Standards Connection:

• DCI: ETS1.B Developing Possible Solutions
• SEP: Developing and Using Models
• CCC: Influence of Science, Engineering, and Technology on Society and the Natural World
  

The Traveling Seed

Become a seed today and discover all the ways you travel! Students will design and engineer different models demonstrating how a seed is dispersed in nature.

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Materials Needed:

• Helicopter Seed Template
• paper clip
• scissors
• fan
• balloons
• tissue paper
• paper clips
• rubber bands
• straws
• yarn
• string
• foil
• masking tape
• cotton balls
• craft sticks
• pipe cleaner
• pan of water
• seeds (lima beans or something similar would work)
• additional items of your choice

Standards Connection:

• DCI: LS2.A: Interdependent Relationships in Ecosystems
• SEP: Developing and Using Models: Develop a single model based on evidence to represent a proposed object or tool.
• CCC: Structure and Function: The shape and stability of structures of natural and designed objects are related to their functions.
• K-2-ETS1-2: Develop a simple sketch, drawing or physical model to illustrate how the shape of an object helps it function as needed to solve a given problem.
• K-2-ETS1-3: Analyze data from tests of two objects designed to solve the same problem to compare the strengths and weaknesses of how each performs.
• 3-5-ETS1-2: Generate and compare multiple possible solutions to a problem based on how well each is likely to meet the criteria and constraints of the problem.

Vision Voyage

Light and Sight Mastery

Students will dive in to learn how light waves team up with the human eye. Students will build their model of an eye to investigate how light affects our vision.

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Materials Needed (per student):

• Front of Eye template (to be provided)
• markers, colors pencils, or crayons (blue, brown, green)
• scissors
• dot stickers (2 per student)
• index cards (3x5)
• credit card-sized magnifiers (3x)

Standards Connection:

• DCI: LS1.A: Structure and Function – Plants and animals have both internal and external structures that serve various functions in growth, survival, behavior, and reproduction.
• SEP: Planning and carrying out investigations – Make observations and measurements to produce data to serve as the basis for evidence for an explanation.
• CCC: Structure and Function – The way something is shaped and its substructure determine many of its properties and functions.

Who Makes the Most Oxygen?

We know trees produce the oxygen that we breathe but what kinds of trees produce the most oxygen? Students will conduct a scientific experiment to determine which trees are best to plant to produce the most oxygen in the atmosphere.

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Materials Needed (per group):

• 4-6 clear containers (such as clear plastic cups or mason jars)
• leaves from 4-6 different plants
• timer
• water
• a bright light (optional)

Standards Connection:

• DCI: LS1.C: Organization for Matter and Energy Flow in Organisms
• SEP: Engage in Argument from Evidence: Support an argument with evidence, data or a model.
• CCC: Energy and Matter: Matter is transported into, out of and within systems.
• 3-5-ETS1-3: Plan and carry out fair tests in which variables are controlled and failure points are considered to identify aspects of a model or prototype that can be improved.

Balloon Car

Students will explore balanced and unbalanced forces while they create balloon-powered cars. Students will get to experience Newton’s third law firsthand as they work to get their car to move.

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Materials Needed:

• balloon
• straw
• rubber band
• tape
• scissors
• bamboo skewers or toothpicks (something to go through the straw to act as an axle)
  
• materials for the body (ex. small box, bottle, popsicle sticks, etc.)
• materials for wheels (ex. water bottle lids, etc.)
• Balloon Car Challenge worksheet (PDF) - Optional

Candy Chemistry

Unsure of what to do with all that extra Halloween candy? Donate it to science while learning about physical and chemical changes.

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Materials Needed:

• baking soda
• vinegar
• spoons (to dish out materials)
• 4 clear plastic cups with water
• 4 different pieces of candy
  (anything that is not chocolate-based, like Starbursts, Skittles, hard candy, Airheads, chewy candy)