Summer STEM Activities

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SummerSTEMActivitiesA Resource Guidefor Parents of Students in Grades K-5

Fun Ways to Keep the Summer Brain in Gear amp Promote STEM-Based Learning

Summer is upon us While the school doors may be closed for a few months that doesnrsquot mean that learning has to stop

More and more educators and parents are realizing the impact that the summer months can have on academic achievement Over 100 years of research confirm that children experience learning loss when they are not actively engaged in academic activities over the summer Specifically students can lose up to 3 months of progress during one summer and that gap increases year over year Stud-ies indicate that two-thirds of the 9th grade achievement gap is attributed to unequal summer learning opportunities in elemen-tary school Additionally children who are not involved in positive learning experiences during the summer months are more likely to make poor social choices demonstrate poor attendance and have lower graduation rates in high school

Summer is a great time for parents to discover what their children struggle with and what they enjoy academically Parents who find ways to reinforce skills in out-of-school time demonstrate that learning is not confined to

the classroom and give their children a signif-icant academic advantage STEM-based learn-ing activities can provide a fun and easy way for parents to promote reading science math-ematics and hands-on creativity when school is out of session

STEM is an acronym that stands for Science Technology Engineering and Mathematics Young children are quite capable of engaging in all of these content areas When they have a variety of opportunities to do so they also develop essential problem-solving and crit-ical-thinking skills Studies show that young children who have a strong foundation in making things - tinkering building creating and experimenting - are better able to make cognitive connections between content and skills in the upper grades

This activity guide is designed to provide par-ents with some fun ways to keep the summer brain stimulated and learning nurture the natural curiosity of children in grades K-5 and promote opportunities for them to ask ques-tions look for answers and design solutions to real-world problems

Introduction

The Benefits of Reading Together 1

Science 3

Technology 5

Engineering 7

Mathematics 9

5 Tips for Parents 11

Pulling It All Together 12

The benefits of reading to and with children cannot be overemphasized In fact educators researchers and pediatricians agree that read-ing aloud is the single most important activity that parents can do to help children develop literacy and language skills

Parents who read aloud to and with their chil-dren create a rich and powerful experience with language that sets the foundation for future academic success Seeing hearing and discussing a book is one of the most effective ways children can build the neural connec-tions in their brains that control language Rou-tinely reading to and with your child promotes a longer attention span a larger vocabulary and better listening skills But sharing a book

does more than build knowledge and skills It combines a variety of elements to spark a posi-tive attitude so vital for learning and academic success down the road

Building your childrsquos personal library can pay dividends Because you know your child better than anyone else choose books that build on his or her interests and meaningful experi-ences By incorporating reading together into your routine at home and giving your child access to a variety of books he or she will begin to connect reading with positive emo-tions and well-being In addition a child who has his or her own collection of books is likely to engage in more independent reading for pleasure

The Hands-On Science Fun series is a great collection to help you share some fun and easy science experiments with children ages 3-8 The safe simple instructions lead you through the steps to make bubbles build a fizzy rocket make a bouncing egg and more

The Science Exploration Book Set will engage children ages 3 and up with everyday science topics

The Benefits of Reading Together 1

The Science Solves Itreg set gives children ages 5-9 an opportunity to observe investigate predict experiment and draw conclusions about life earth space and other exciting science topics The sto-ries and illustrations combine science and mystery and are perfect for independent reading as well as read aloud experiences

If bugs fascinate your child tap into his or her curiosity about but-terflies ants bees grasshoppers and other living things with the Backyard Books series The colorful illustrations and clear text teach children ages 4-8 how creatures hatch develop and live in their environment

Children ages 4-8 will enjoy learning about how fossils rocks and minerals are found in the earth as well as why volcanoes erupt and how mountains form with the Rocks Minerals amp Fossils book set

Summer often brings some wild weather with it Turn weather events into teachable moments with the What Will the Weather Be book set Perfect for children ages 5-10 each book covers a spe-cific weather topic including temperature humidity tornadoes the wind and more

While wersquove recommended some great titles for you to explore this is just a starting point Check out your local library for summer learning activities and events Many libraries have free or low-cost activities Consider spending a few hours at the library once in a while to give your child the time and freedom needed to explore a wide variety of books The more a child reads the better heshe reads The better a child reads the better heshe will perform in other learning experiences

Donrsquot forget the library

The Benefits of Reading Together 2

The skills and processes of inquiry and investi-gation are essential to all of the sciences Chil-dren who have opportunities to explore the sciences begin to understand how systems natural forces and living things work and grow The study of science in the elementary grades is divided into earth and space science (the earth ocean atmosphere and universe) physical science (natural forces and basic ele-ments) and life science (the study of living things and ecosystems)

Itrsquos important to expose children to a variety of scientific processes and principles and that

can begin with a look around Science affects all of us every day The weather report on the television the flowers you see and the toys that float in the pool are all examples of real-world science Having conversations with your child about these common examples demys-tify science and make learning relevant There are many simple activities that you can enjoy together to foster young childrenrsquos natural curiosity about the world around them build prior knowledge and make later classroom science learning more meaningful

Try itOn a sunny day explore sunlight and shadows Use sidewalk chalk to outline the shadows you observe and then return a few hours later to observe the changes Talk about what happened and how the earthrsquos rotation causes night and day

A small pool creates the perfect ldquooutdoor laboratoryrdquo to conduct a simple ldquosink or floatrdquo activity Explore the concept of buoyancy with a variety of objects that the child can place in the water Let the child make predictions about which will sink or float and then test them to find out if they are right Discuss why some float and others sink Extend the learn-ing experience even further by designing a boat that will support weight but not sink Encourage your child to get creative and use common household items (eg such as alumi-num foil popsicle sticks drinking straws corks etc) to construct the boat Test the strength of the boat by placing it in water and adding weight

Science 3

Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

Science 4

Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

Technology 5

Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

Technology 6

Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

balance motion and force also impact the design

Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

Engineering 7

Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

Engineering 8

Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

Mathematics 9

The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

Mathematics 10

1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

5 Tips for Parents to Promote STEM-Based Learning 11

Pulling It All Together

The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

12

K-2 Next Generation Science Standards Alignment

K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

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 Next Generation Science Standards Alignment

3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

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 con-straints of the problem

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

  • Cover
  • Introduction
  • Table of Contents
  • The Benefits of Reading Together
  • Science
  • Technology
  • Engineering
  • Mathematics
  • 5 Tips for Parents to Promote STEM-Based Learning
  • Pulling It all Together

    Summer is upon us While the school doors may be closed for a few months that doesnrsquot mean that learning has to stop

    More and more educators and parents are realizing the impact that the summer months can have on academic achievement Over 100 years of research confirm that children experience learning loss when they are not actively engaged in academic activities over the summer Specifically students can lose up to 3 months of progress during one summer and that gap increases year over year Stud-ies indicate that two-thirds of the 9th grade achievement gap is attributed to unequal summer learning opportunities in elemen-tary school Additionally children who are not involved in positive learning experiences during the summer months are more likely to make poor social choices demonstrate poor attendance and have lower graduation rates in high school

    Summer is a great time for parents to discover what their children struggle with and what they enjoy academically Parents who find ways to reinforce skills in out-of-school time demonstrate that learning is not confined to

    the classroom and give their children a signif-icant academic advantage STEM-based learn-ing activities can provide a fun and easy way for parents to promote reading science math-ematics and hands-on creativity when school is out of session

    STEM is an acronym that stands for Science Technology Engineering and Mathematics Young children are quite capable of engaging in all of these content areas When they have a variety of opportunities to do so they also develop essential problem-solving and crit-ical-thinking skills Studies show that young children who have a strong foundation in making things - tinkering building creating and experimenting - are better able to make cognitive connections between content and skills in the upper grades

    This activity guide is designed to provide par-ents with some fun ways to keep the summer brain stimulated and learning nurture the natural curiosity of children in grades K-5 and promote opportunities for them to ask ques-tions look for answers and design solutions to real-world problems

    Introduction

    The Benefits of Reading Together 1

    Science 3

    Technology 5

    Engineering 7

    Mathematics 9

    5 Tips for Parents 11

    Pulling It All Together 12

    The benefits of reading to and with children cannot be overemphasized In fact educators researchers and pediatricians agree that read-ing aloud is the single most important activity that parents can do to help children develop literacy and language skills

    Parents who read aloud to and with their chil-dren create a rich and powerful experience with language that sets the foundation for future academic success Seeing hearing and discussing a book is one of the most effective ways children can build the neural connec-tions in their brains that control language Rou-tinely reading to and with your child promotes a longer attention span a larger vocabulary and better listening skills But sharing a book

    does more than build knowledge and skills It combines a variety of elements to spark a posi-tive attitude so vital for learning and academic success down the road

    Building your childrsquos personal library can pay dividends Because you know your child better than anyone else choose books that build on his or her interests and meaningful experi-ences By incorporating reading together into your routine at home and giving your child access to a variety of books he or she will begin to connect reading with positive emo-tions and well-being In addition a child who has his or her own collection of books is likely to engage in more independent reading for pleasure

    The Hands-On Science Fun series is a great collection to help you share some fun and easy science experiments with children ages 3-8 The safe simple instructions lead you through the steps to make bubbles build a fizzy rocket make a bouncing egg and more

    The Science Exploration Book Set will engage children ages 3 and up with everyday science topics

    The Benefits of Reading Together 1

    The Science Solves Itreg set gives children ages 5-9 an opportunity to observe investigate predict experiment and draw conclusions about life earth space and other exciting science topics The sto-ries and illustrations combine science and mystery and are perfect for independent reading as well as read aloud experiences

    If bugs fascinate your child tap into his or her curiosity about but-terflies ants bees grasshoppers and other living things with the Backyard Books series The colorful illustrations and clear text teach children ages 4-8 how creatures hatch develop and live in their environment

    Children ages 4-8 will enjoy learning about how fossils rocks and minerals are found in the earth as well as why volcanoes erupt and how mountains form with the Rocks Minerals amp Fossils book set

    Summer often brings some wild weather with it Turn weather events into teachable moments with the What Will the Weather Be book set Perfect for children ages 5-10 each book covers a spe-cific weather topic including temperature humidity tornadoes the wind and more

    While wersquove recommended some great titles for you to explore this is just a starting point Check out your local library for summer learning activities and events Many libraries have free or low-cost activities Consider spending a few hours at the library once in a while to give your child the time and freedom needed to explore a wide variety of books The more a child reads the better heshe reads The better a child reads the better heshe will perform in other learning experiences

    Donrsquot forget the library

    The Benefits of Reading Together 2

    The skills and processes of inquiry and investi-gation are essential to all of the sciences Chil-dren who have opportunities to explore the sciences begin to understand how systems natural forces and living things work and grow The study of science in the elementary grades is divided into earth and space science (the earth ocean atmosphere and universe) physical science (natural forces and basic ele-ments) and life science (the study of living things and ecosystems)

    Itrsquos important to expose children to a variety of scientific processes and principles and that

    can begin with a look around Science affects all of us every day The weather report on the television the flowers you see and the toys that float in the pool are all examples of real-world science Having conversations with your child about these common examples demys-tify science and make learning relevant There are many simple activities that you can enjoy together to foster young childrenrsquos natural curiosity about the world around them build prior knowledge and make later classroom science learning more meaningful

    Try itOn a sunny day explore sunlight and shadows Use sidewalk chalk to outline the shadows you observe and then return a few hours later to observe the changes Talk about what happened and how the earthrsquos rotation causes night and day

    A small pool creates the perfect ldquooutdoor laboratoryrdquo to conduct a simple ldquosink or floatrdquo activity Explore the concept of buoyancy with a variety of objects that the child can place in the water Let the child make predictions about which will sink or float and then test them to find out if they are right Discuss why some float and others sink Extend the learn-ing experience even further by designing a boat that will support weight but not sink Encourage your child to get creative and use common household items (eg such as alumi-num foil popsicle sticks drinking straws corks etc) to construct the boat Test the strength of the boat by placing it in water and adding weight

    Science 3

    Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

    If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

    For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

    Science 4

    Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

    Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

    day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

    Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

    Technology 5

    Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

    Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

    Technology 6

    Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

    balance motion and force also impact the design

    Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

    Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

    Engineering 7

    Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

    If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

    Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

    If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

    Engineering 8

    Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

    Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

    Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

    Mathematics 9

    The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

    Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

    Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

    Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

    Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

    Mathematics 10

    1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

    2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

    3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

    4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

    5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

    5 Tips for Parents to Promote STEM-Based Learning 11

    Pulling It All Together

    The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

    Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

    You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

    12

    K-2 Next Generation Science Standards Alignment

    K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

    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 Next Generation Science Standards Alignment

    3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

    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 con-straints of the problem

    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

    • Cover
    • Introduction
    • Table of Contents
    • The Benefits of Reading Together
    • Science
    • Technology
    • Engineering
    • Mathematics
    • 5 Tips for Parents to Promote STEM-Based Learning
    • Pulling It all Together

      The Benefits of Reading Together 1

      Science 3

      Technology 5

      Engineering 7

      Mathematics 9

      5 Tips for Parents 11

      Pulling It All Together 12

      The benefits of reading to and with children cannot be overemphasized In fact educators researchers and pediatricians agree that read-ing aloud is the single most important activity that parents can do to help children develop literacy and language skills

      Parents who read aloud to and with their chil-dren create a rich and powerful experience with language that sets the foundation for future academic success Seeing hearing and discussing a book is one of the most effective ways children can build the neural connec-tions in their brains that control language Rou-tinely reading to and with your child promotes a longer attention span a larger vocabulary and better listening skills But sharing a book

      does more than build knowledge and skills It combines a variety of elements to spark a posi-tive attitude so vital for learning and academic success down the road

      Building your childrsquos personal library can pay dividends Because you know your child better than anyone else choose books that build on his or her interests and meaningful experi-ences By incorporating reading together into your routine at home and giving your child access to a variety of books he or she will begin to connect reading with positive emo-tions and well-being In addition a child who has his or her own collection of books is likely to engage in more independent reading for pleasure

      The Hands-On Science Fun series is a great collection to help you share some fun and easy science experiments with children ages 3-8 The safe simple instructions lead you through the steps to make bubbles build a fizzy rocket make a bouncing egg and more

      The Science Exploration Book Set will engage children ages 3 and up with everyday science topics

      The Benefits of Reading Together 1

      The Science Solves Itreg set gives children ages 5-9 an opportunity to observe investigate predict experiment and draw conclusions about life earth space and other exciting science topics The sto-ries and illustrations combine science and mystery and are perfect for independent reading as well as read aloud experiences

      If bugs fascinate your child tap into his or her curiosity about but-terflies ants bees grasshoppers and other living things with the Backyard Books series The colorful illustrations and clear text teach children ages 4-8 how creatures hatch develop and live in their environment

      Children ages 4-8 will enjoy learning about how fossils rocks and minerals are found in the earth as well as why volcanoes erupt and how mountains form with the Rocks Minerals amp Fossils book set

      Summer often brings some wild weather with it Turn weather events into teachable moments with the What Will the Weather Be book set Perfect for children ages 5-10 each book covers a spe-cific weather topic including temperature humidity tornadoes the wind and more

      While wersquove recommended some great titles for you to explore this is just a starting point Check out your local library for summer learning activities and events Many libraries have free or low-cost activities Consider spending a few hours at the library once in a while to give your child the time and freedom needed to explore a wide variety of books The more a child reads the better heshe reads The better a child reads the better heshe will perform in other learning experiences

      Donrsquot forget the library

      The Benefits of Reading Together 2

      The skills and processes of inquiry and investi-gation are essential to all of the sciences Chil-dren who have opportunities to explore the sciences begin to understand how systems natural forces and living things work and grow The study of science in the elementary grades is divided into earth and space science (the earth ocean atmosphere and universe) physical science (natural forces and basic ele-ments) and life science (the study of living things and ecosystems)

      Itrsquos important to expose children to a variety of scientific processes and principles and that

      can begin with a look around Science affects all of us every day The weather report on the television the flowers you see and the toys that float in the pool are all examples of real-world science Having conversations with your child about these common examples demys-tify science and make learning relevant There are many simple activities that you can enjoy together to foster young childrenrsquos natural curiosity about the world around them build prior knowledge and make later classroom science learning more meaningful

      Try itOn a sunny day explore sunlight and shadows Use sidewalk chalk to outline the shadows you observe and then return a few hours later to observe the changes Talk about what happened and how the earthrsquos rotation causes night and day

      A small pool creates the perfect ldquooutdoor laboratoryrdquo to conduct a simple ldquosink or floatrdquo activity Explore the concept of buoyancy with a variety of objects that the child can place in the water Let the child make predictions about which will sink or float and then test them to find out if they are right Discuss why some float and others sink Extend the learn-ing experience even further by designing a boat that will support weight but not sink Encourage your child to get creative and use common household items (eg such as alumi-num foil popsicle sticks drinking straws corks etc) to construct the boat Test the strength of the boat by placing it in water and adding weight

      Science 3

      Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

      If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

      For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

      Science 4

      Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

      Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

      day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

      Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

      Technology 5

      Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

      Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

      Technology 6

      Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

      balance motion and force also impact the design

      Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

      Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

      Engineering 7

      Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

      If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

      Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

      If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

      Engineering 8

      Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

      Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

      Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

      Mathematics 9

      The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

      Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

      Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

      Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

      Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

      Mathematics 10

      1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

      2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

      3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

      4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

      5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

      5 Tips for Parents to Promote STEM-Based Learning 11

      Pulling It All Together

      The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

      Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

      You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

      12

      K-2 Next Generation Science Standards Alignment

      K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

      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 Next Generation Science Standards Alignment

      3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

      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 con-straints of the problem

      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

      • Cover
      • Introduction
      • Table of Contents
      • The Benefits of Reading Together
      • Science
      • Technology
      • Engineering
      • Mathematics
      • 5 Tips for Parents to Promote STEM-Based Learning
      • Pulling It all Together

        The benefits of reading to and with children cannot be overemphasized In fact educators researchers and pediatricians agree that read-ing aloud is the single most important activity that parents can do to help children develop literacy and language skills

        Parents who read aloud to and with their chil-dren create a rich and powerful experience with language that sets the foundation for future academic success Seeing hearing and discussing a book is one of the most effective ways children can build the neural connec-tions in their brains that control language Rou-tinely reading to and with your child promotes a longer attention span a larger vocabulary and better listening skills But sharing a book

        does more than build knowledge and skills It combines a variety of elements to spark a posi-tive attitude so vital for learning and academic success down the road

        Building your childrsquos personal library can pay dividends Because you know your child better than anyone else choose books that build on his or her interests and meaningful experi-ences By incorporating reading together into your routine at home and giving your child access to a variety of books he or she will begin to connect reading with positive emo-tions and well-being In addition a child who has his or her own collection of books is likely to engage in more independent reading for pleasure

        The Hands-On Science Fun series is a great collection to help you share some fun and easy science experiments with children ages 3-8 The safe simple instructions lead you through the steps to make bubbles build a fizzy rocket make a bouncing egg and more

        The Science Exploration Book Set will engage children ages 3 and up with everyday science topics

        The Benefits of Reading Together 1

        The Science Solves Itreg set gives children ages 5-9 an opportunity to observe investigate predict experiment and draw conclusions about life earth space and other exciting science topics The sto-ries and illustrations combine science and mystery and are perfect for independent reading as well as read aloud experiences

        If bugs fascinate your child tap into his or her curiosity about but-terflies ants bees grasshoppers and other living things with the Backyard Books series The colorful illustrations and clear text teach children ages 4-8 how creatures hatch develop and live in their environment

        Children ages 4-8 will enjoy learning about how fossils rocks and minerals are found in the earth as well as why volcanoes erupt and how mountains form with the Rocks Minerals amp Fossils book set

        Summer often brings some wild weather with it Turn weather events into teachable moments with the What Will the Weather Be book set Perfect for children ages 5-10 each book covers a spe-cific weather topic including temperature humidity tornadoes the wind and more

        While wersquove recommended some great titles for you to explore this is just a starting point Check out your local library for summer learning activities and events Many libraries have free or low-cost activities Consider spending a few hours at the library once in a while to give your child the time and freedom needed to explore a wide variety of books The more a child reads the better heshe reads The better a child reads the better heshe will perform in other learning experiences

        Donrsquot forget the library

        The Benefits of Reading Together 2

        The skills and processes of inquiry and investi-gation are essential to all of the sciences Chil-dren who have opportunities to explore the sciences begin to understand how systems natural forces and living things work and grow The study of science in the elementary grades is divided into earth and space science (the earth ocean atmosphere and universe) physical science (natural forces and basic ele-ments) and life science (the study of living things and ecosystems)

        Itrsquos important to expose children to a variety of scientific processes and principles and that

        can begin with a look around Science affects all of us every day The weather report on the television the flowers you see and the toys that float in the pool are all examples of real-world science Having conversations with your child about these common examples demys-tify science and make learning relevant There are many simple activities that you can enjoy together to foster young childrenrsquos natural curiosity about the world around them build prior knowledge and make later classroom science learning more meaningful

        Try itOn a sunny day explore sunlight and shadows Use sidewalk chalk to outline the shadows you observe and then return a few hours later to observe the changes Talk about what happened and how the earthrsquos rotation causes night and day

        A small pool creates the perfect ldquooutdoor laboratoryrdquo to conduct a simple ldquosink or floatrdquo activity Explore the concept of buoyancy with a variety of objects that the child can place in the water Let the child make predictions about which will sink or float and then test them to find out if they are right Discuss why some float and others sink Extend the learn-ing experience even further by designing a boat that will support weight but not sink Encourage your child to get creative and use common household items (eg such as alumi-num foil popsicle sticks drinking straws corks etc) to construct the boat Test the strength of the boat by placing it in water and adding weight

        Science 3

        Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

        If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

        For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

        Science 4

        Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

        Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

        day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

        Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

        Technology 5

        Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

        Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

        Technology 6

        Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

        balance motion and force also impact the design

        Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

        Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

        Engineering 7

        Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

        If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

        Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

        If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

        Engineering 8

        Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

        Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

        Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

        Mathematics 9

        The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

        Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

        Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

        Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

        Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

        Mathematics 10

        1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

        2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

        3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

        4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

        5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

        5 Tips for Parents to Promote STEM-Based Learning 11

        Pulling It All Together

        The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

        Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

        You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

        12

        K-2 Next Generation Science Standards Alignment

        K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

        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 Next Generation Science Standards Alignment

        3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

        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 con-straints of the problem

        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

        • Cover
        • Introduction
        • Table of Contents
        • The Benefits of Reading Together
        • Science
        • Technology
        • Engineering
        • Mathematics
        • 5 Tips for Parents to Promote STEM-Based Learning
        • Pulling It all Together

          The Science Solves Itreg set gives children ages 5-9 an opportunity to observe investigate predict experiment and draw conclusions about life earth space and other exciting science topics The sto-ries and illustrations combine science and mystery and are perfect for independent reading as well as read aloud experiences

          If bugs fascinate your child tap into his or her curiosity about but-terflies ants bees grasshoppers and other living things with the Backyard Books series The colorful illustrations and clear text teach children ages 4-8 how creatures hatch develop and live in their environment

          Children ages 4-8 will enjoy learning about how fossils rocks and minerals are found in the earth as well as why volcanoes erupt and how mountains form with the Rocks Minerals amp Fossils book set

          Summer often brings some wild weather with it Turn weather events into teachable moments with the What Will the Weather Be book set Perfect for children ages 5-10 each book covers a spe-cific weather topic including temperature humidity tornadoes the wind and more

          While wersquove recommended some great titles for you to explore this is just a starting point Check out your local library for summer learning activities and events Many libraries have free or low-cost activities Consider spending a few hours at the library once in a while to give your child the time and freedom needed to explore a wide variety of books The more a child reads the better heshe reads The better a child reads the better heshe will perform in other learning experiences

          Donrsquot forget the library

          The Benefits of Reading Together 2

          The skills and processes of inquiry and investi-gation are essential to all of the sciences Chil-dren who have opportunities to explore the sciences begin to understand how systems natural forces and living things work and grow The study of science in the elementary grades is divided into earth and space science (the earth ocean atmosphere and universe) physical science (natural forces and basic ele-ments) and life science (the study of living things and ecosystems)

          Itrsquos important to expose children to a variety of scientific processes and principles and that

          can begin with a look around Science affects all of us every day The weather report on the television the flowers you see and the toys that float in the pool are all examples of real-world science Having conversations with your child about these common examples demys-tify science and make learning relevant There are many simple activities that you can enjoy together to foster young childrenrsquos natural curiosity about the world around them build prior knowledge and make later classroom science learning more meaningful

          Try itOn a sunny day explore sunlight and shadows Use sidewalk chalk to outline the shadows you observe and then return a few hours later to observe the changes Talk about what happened and how the earthrsquos rotation causes night and day

          A small pool creates the perfect ldquooutdoor laboratoryrdquo to conduct a simple ldquosink or floatrdquo activity Explore the concept of buoyancy with a variety of objects that the child can place in the water Let the child make predictions about which will sink or float and then test them to find out if they are right Discuss why some float and others sink Extend the learn-ing experience even further by designing a boat that will support weight but not sink Encourage your child to get creative and use common household items (eg such as alumi-num foil popsicle sticks drinking straws corks etc) to construct the boat Test the strength of the boat by placing it in water and adding weight

          Science 3

          Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

          If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

          For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

          Science 4

          Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

          Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

          day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

          Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

          Technology 5

          Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

          Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

          Technology 6

          Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

          balance motion and force also impact the design

          Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

          Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

          Engineering 7

          Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

          If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

          Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

          If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

          Engineering 8

          Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

          Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

          Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

          Mathematics 9

          The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

          Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

          Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

          Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

          Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

          Mathematics 10

          1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

          2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

          3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

          4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

          5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

          5 Tips for Parents to Promote STEM-Based Learning 11

          Pulling It All Together

          The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

          Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

          You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

          12

          K-2 Next Generation Science Standards Alignment

          K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

          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 Next Generation Science Standards Alignment

          3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

          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 con-straints of the problem

          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

          • Cover
          • Introduction
          • Table of Contents
          • The Benefits of Reading Together
          • Science
          • Technology
          • Engineering
          • Mathematics
          • 5 Tips for Parents to Promote STEM-Based Learning
          • Pulling It all Together

            The skills and processes of inquiry and investi-gation are essential to all of the sciences Chil-dren who have opportunities to explore the sciences begin to understand how systems natural forces and living things work and grow The study of science in the elementary grades is divided into earth and space science (the earth ocean atmosphere and universe) physical science (natural forces and basic ele-ments) and life science (the study of living things and ecosystems)

            Itrsquos important to expose children to a variety of scientific processes and principles and that

            can begin with a look around Science affects all of us every day The weather report on the television the flowers you see and the toys that float in the pool are all examples of real-world science Having conversations with your child about these common examples demys-tify science and make learning relevant There are many simple activities that you can enjoy together to foster young childrenrsquos natural curiosity about the world around them build prior knowledge and make later classroom science learning more meaningful

            Try itOn a sunny day explore sunlight and shadows Use sidewalk chalk to outline the shadows you observe and then return a few hours later to observe the changes Talk about what happened and how the earthrsquos rotation causes night and day

            A small pool creates the perfect ldquooutdoor laboratoryrdquo to conduct a simple ldquosink or floatrdquo activity Explore the concept of buoyancy with a variety of objects that the child can place in the water Let the child make predictions about which will sink or float and then test them to find out if they are right Discuss why some float and others sink Extend the learn-ing experience even further by designing a boat that will support weight but not sink Encourage your child to get creative and use common household items (eg such as alumi-num foil popsicle sticks drinking straws corks etc) to construct the boat Test the strength of the boat by placing it in water and adding weight

            Science 3

            Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

            If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

            For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

            Science 4

            Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

            Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

            day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

            Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

            Technology 5

            Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

            Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

            Technology 6

            Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

            balance motion and force also impact the design

            Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

            Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

            Engineering 7

            Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

            If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

            Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

            If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

            Engineering 8

            Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

            Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

            Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

            Mathematics 9

            The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

            Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

            Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

            Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

            Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

            Mathematics 10

            1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

            2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

            3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

            4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

            5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

            5 Tips for Parents to Promote STEM-Based Learning 11

            Pulling It All Together

            The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

            Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

            You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

            12

            K-2 Next Generation Science Standards Alignment

            K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

            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 Next Generation Science Standards Alignment

            3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

            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 con-straints of the problem

            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

            • Cover
            • Introduction
            • Table of Contents
            • The Benefits of Reading Together
            • Science
            • Technology
            • Engineering
            • Mathematics
            • 5 Tips for Parents to Promote STEM-Based Learning
            • Pulling It all Together

              Go on a nature walk and investigate the differences between living things and nonliv-ing things Have a conversation about what things need to live and survive Plant a herb garden flowers or vegetables and talk about the process of planting the seeds so the roots will grow down and the plant will grow up Continue the discussion about plant life as you water them and watch them grow

              If you donrsquot have a great outdoor space for planting consider the Sensory Dome This kit includes soil two kinds of gravel stone color stakes color stick-ers and planting mixture to help you create a minia-ture garden with over 10 plant varieties from around the world The easy-to-grow kit starts sprouting in less than a week and can grow for years with mini-mal care

              For a more in-depth explanation of buoyancy and water displacement check out The Discovery Channel video ldquoLetrsquos Talk Buoy-ancyrdquo at httpwwwdiscoverycomtv-showsmythbustersvideoslets-talk-buoyancyhtm

              Science 4

              Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

              Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

              day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

              Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

              Technology 5

              Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

              Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

              Technology 6

              Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

              balance motion and force also impact the design

              Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

              Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

              Engineering 7

              Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

              If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

              Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

              If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

              Engineering 8

              Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

              Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

              Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

              Mathematics 9

              The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

              Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

              Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

              Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

              Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

              Mathematics 10

              1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

              2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

              3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

              4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

              5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

              5 Tips for Parents to Promote STEM-Based Learning 11

              Pulling It All Together

              The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

              Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

              You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

              12

              K-2 Next Generation Science Standards Alignment

              K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

              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 Next Generation Science Standards Alignment

              3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

              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 con-straints of the problem

              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

              • Cover
              • Introduction
              • Table of Contents
              • The Benefits of Reading Together
              • Science
              • Technology
              • Engineering
              • Mathematics
              • 5 Tips for Parents to Promote STEM-Based Learning
              • Pulling It all Together

                Technology activities include computers tab-lets and smart phones but this aspect of STEM also refers to the relationship among science technology society and the individual This means giving children the opportunity to find out how things are constructed how things work and how they can work better

                Children should understand that people design and make objects and systems to solve a problem or make life easier Technology includes a variety of things that we use every-

                day beyond computers such as our water and heat systems bridges tunnels airplanes and many toys Exploring things with gears pul-leys wheels blocks ramps and other simple machines can be a great way to foster a deeper understanding of the different forms of tech-nology and help children apply that under-standing to other areas of science engineer-ing and math

                Try itHave a conversation about all of the things that are automated For example many vending machines use automation to select the item you want and drop it into a box where you can retrieve it Encourage your child to design his or her own robot using common household items such as card-board boxes aluminum foil paper towel tubes yarn buttons etc This promotes basic skills such as cutting gluing alignment creativity and analytical thinking Ask your child to describe the functions the robot might perform If this is a special interest for your child extend the learning experience with the Snap Circuitsreg RC Rover All of the colorful gears and parts snap together with ease and once completed your child can drive the rover with a remote control

                Technology 5

                Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

                Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

                Technology 6

                Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

                balance motion and force also impact the design

                Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

                Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

                Engineering 7

                Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

                If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

                Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

                If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

                Engineering 8

                Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

                Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

                Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

                Mathematics 9

                The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

                Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

                Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

                Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

                Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

                Mathematics 10

                1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                5 Tips for Parents to Promote STEM-Based Learning 11

                Pulling It All Together

                The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                12

                K-2 Next Generation Science Standards Alignment

                K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                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 Next Generation Science Standards Alignment

                3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                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 con-straints of the problem

                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

                • Cover
                • Introduction
                • Table of Contents
                • The Benefits of Reading Together
                • Science
                • Technology
                • Engineering
                • Mathematics
                • 5 Tips for Parents to Promote STEM-Based Learning
                • Pulling It all Together

                  Make a string phone to explore the principles of sound waves A few paper cups kite string and a few paper clips will give kids an opportunity to investigate the way in which sound waves travel through solids such as the cup and string Poke a small hole in the bottom of a paper cup feed the string through the hole and tie it to a paper clip to secure it Stretch the string taut make sure it isnrsquot touching anything else and whisper into the cup Can your child hear you Talk about how you create sound waves when you speak They are converted into vibrations which travel along the string and then converted back into sound waves at the other end of the string The book How Cell Phones Work by Nadia Higgins explains sound waves radio waves and other key science ideas behind the technology of cell phones

                  Give children various opportunities to iden-tify simple machines in the world around them Inclined planes wheels levers and pulleys are all part of childrenrsquos lives in flagpoles doorknobs window blinds and more The KrsquoNEXreg Intro to Simple Machines Levers amp Pulleys is a way to extend constructing and building experiences for your child

                  Technology 6

                  Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

                  balance motion and force also impact the design

                  Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

                  Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

                  Engineering 7

                  Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

                  If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

                  Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

                  If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

                  Engineering 8

                  Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

                  Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

                  Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

                  Mathematics 9

                  The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

                  Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

                  Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

                  Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

                  Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

                  Mathematics 10

                  1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                  2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                  3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                  4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                  5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                  5 Tips for Parents to Promote STEM-Based Learning 11

                  Pulling It All Together

                  The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                  Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                  You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                  12

                  K-2 Next Generation Science Standards Alignment

                  K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                  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 Next Generation Science Standards Alignment

                  3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                  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 con-straints of the problem

                  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

                  • Cover
                  • Introduction
                  • Table of Contents
                  • The Benefits of Reading Together
                  • Science
                  • Technology
                  • Engineering
                  • Mathematics
                  • 5 Tips for Parents to Promote STEM-Based Learning
                  • Pulling It all Together

                    Children naturally develop engineering con-cepts as they design build and test things they create From sand castles to block cities they engage in engineering through play but they may not realize that is what they are doing We see examples of engineering designed to post questions look for answers and develop solutions every day For example when civil engineers design bridges they must consider the purpose of the bridge the strength nec-essary to support the weight of the load and the anchors for the bridge Other factors like

                    balance motion and force also impact the design

                    Parents can make children aware of engineer-ing processes and designs within the context of everyday life Talk about the purpose of the bridge you see call attention to the house under construction or ask them what they know about solar energy Your child is a nat-ural engineer With a little guidance you can tap into that

                    Try itSet up a simple solar energy experiment to demon-strate how some people heat their homes Get two glass jars and cover one with black paper Fill both with water and place on a windowsill or table in the direct sunlight Ask your child which jar he thinks will heat up faster Ask him how you might test his theory Place a thermometer in each jar and leave the jars undisturbed After a short time encourage him to check the temperature of the water in each jar Talk about some of the other ways we use energy from the sun such as drying our clothes growing food heating pools and lighting solutions You can extend learning experiences with solar energy with the Solar Science Kit for children ages 8 and up

                    Engineering 7

                    Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

                    If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

                    Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

                    If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

                    Engineering 8

                    Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

                    Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

                    Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

                    Mathematics 9

                    The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

                    Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

                    Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

                    Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

                    Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

                    Mathematics 10

                    1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                    2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                    3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                    4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                    5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                    5 Tips for Parents to Promote STEM-Based Learning 11

                    Pulling It All Together

                    The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                    Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                    You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                    12

                    K-2 Next Generation Science Standards Alignment

                    K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                    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 Next Generation Science Standards Alignment

                    3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                    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 con-straints of the problem

                    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

                    • Cover
                    • Introduction
                    • Table of Contents
                    • The Benefits of Reading Together
                    • Science
                    • Technology
                    • Engineering
                    • Mathematics
                    • 5 Tips for Parents to Promote STEM-Based Learning
                    • Pulling It all Together

                      Experiment with a variety of common household items to create towers and bridges Donrsquot limit your childrsquos imagination but let her look for safe and unbreakable materials that she can use to build structures Present the challenge such as ldquocreate a bridge from the porch to the drivewayrdquo or ldquobuild a tower that measures at least 4 feet tallrdquo

                      If your child is a natural ldquobuilderrdquo foster that creativity with activ-ities that require fine motor skills More advanced children will gain an early understanding of physics and engineering with the KEVA Contraptions Plank Set Through the con-struction of tracks funnels ramps and chutes without glue or connectors they have opportunities for experi-mentation and problem solving with balance and struc-tural stability

                      Have a conversation about how things work and the role that engineers play in creating things that make our lives easier A great book to enjoy together is Engi-neering the ABCs How Engineers Shape Our World

                      If you find that your child really enjoys building models and designing things consider the ZOOBreg Challenge Kit Kids can create their own simple models in minutes or spend hours constructing the challenges provided in the kit

                      Engineering 8

                      Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

                      Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

                      Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

                      Mathematics 9

                      The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

                      Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

                      Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

                      Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

                      Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

                      Mathematics 10

                      1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                      2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                      3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                      4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                      5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                      5 Tips for Parents to Promote STEM-Based Learning 11

                      Pulling It All Together

                      The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                      Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                      You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                      12

                      K-2 Next Generation Science Standards Alignment

                      K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                      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 Next Generation Science Standards Alignment

                      3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                      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 con-straints of the problem

                      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

                      • Cover
                      • Introduction
                      • Table of Contents
                      • The Benefits of Reading Together
                      • Science
                      • Technology
                      • Engineering
                      • Mathematics
                      • 5 Tips for Parents to Promote STEM-Based Learning
                      • Pulling It all Together

                        Mathematics relates to the ideas and concepts of quantity and spatial relationships Math is all about counting classifying matching measuring comparing and patterning STEM-based learning experiences use a variety of strategies in the problem-solving process and build strong brain connections through music organization and predicting Sorting classify-ing and ordering are great ways to help chil-dren develop logic and set the foundation for strong math skills In addition math can easily be incorporated into play and creative art proj-ects

                        Learning math doesnrsquot have to mean boring drill sheets or workbooks Parents who look for opportunities to share real-world math with their children facilitate their ability to grasp and verbalize mathematical concepts When you think about all of the daily activities that require math yoursquoll realize how easy it is to share those experiences with your child The more children practice math in a relaxed way the more confidence theyrsquoll have with apply-ing mathematical concepts down the road

                        Try itOne of the easiest ways to incorporate math into your childrsquos daily routine is to make him or her your sous chef Cooking involves a variety of skills such as reading the recipe measur-ing ingredients fractions conversions nutrition etc Get creative with that time together and become ldquofood engineersrdquo Create your own recipe for something simple like granola bars fruit popsicles or healthy snacks Take it one step further and create a cookbook together With a basic spiral-bound notebook and a camera you can self-publish your fami-lyrsquos culinary creations

                        Mathematics 9

                        The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

                        Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

                        Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

                        Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

                        Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

                        Mathematics 10

                        1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                        2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                        3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                        4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                        5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                        5 Tips for Parents to Promote STEM-Based Learning 11

                        Pulling It All Together

                        The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                        Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                        You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                        12

                        K-2 Next Generation Science Standards Alignment

                        K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                        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 Next Generation Science Standards Alignment

                        3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                        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 con-straints of the problem

                        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

                        • Cover
                        • Introduction
                        • Table of Contents
                        • The Benefits of Reading Together
                        • Science
                        • Technology
                        • Engineering
                        • Mathematics
                        • 5 Tips for Parents to Promote STEM-Based Learning
                        • Pulling It all Together

                          The grocery store is also a great place to reinforce concepts of money Young children can practice identifying dollars and cents Older children can practice rounding estimating and computing Challenge your child to estimate the total bill as you put items in the cart Round to the nearest dollar and keep a running count Make it a game and see how close heshe can come to the actual total Another real-world example of math at the grocery store is to determine the best value for two similar products For example ask your child which can of beans is the best value - an 8 oz can for $119 or a 12 oz can for $139 Explain that the lowest price isnrsquot always the best price

                          Summer schedules are usually hectic schedules Take advantage of this to reinforce con-cepts of time For example if you have to be at the soccer field for practice at 400 and it is 230 now ask your child how much time you have left Make the car ride a challenge for more advanced children If you have to drive 20 miles and the average rate of speed is 40 miles per hour how long will it take to arrive at your destination

                          Family game night is another great way to reinforce math skills in a fun way Games that involve counting dots on dice and moving that many spaces forward are great for young children

                          Buy It Right Money Game is a great game to reinforce money recognition and making correct change through interactive play Players can price items buy and sell them and learn about the value of money

                          Tri-FACTatrade Operations Games (Addition and Subtraction and Multiplication and Division) can help children build essen-tial math fluency in addition subtraction multiplication and division Designed for 2-4 players this is a great game to enjoy while also reinforcing basic facts

                          Mathematics 10

                          1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                          2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                          3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                          4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                          5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                          5 Tips for Parents to Promote STEM-Based Learning 11

                          Pulling It All Together

                          The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                          Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                          You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                          12

                          K-2 Next Generation Science Standards Alignment

                          K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                          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 Next Generation Science Standards Alignment

                          3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                          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 con-straints of the problem

                          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

                          • Cover
                          • Introduction
                          • Table of Contents
                          • The Benefits of Reading Together
                          • Science
                          • Technology
                          • Engineering
                          • Mathematics
                          • 5 Tips for Parents to Promote STEM-Based Learning
                          • Pulling It all Together

                            1 Ask open-ended questions ndash lots of them What do you think will happen Why do you think that happened How do you think we could find out What did you notice You donrsquot have to have all of the answers to the questions to create mem-orable STEM-based learning experiences The focus is on the questioning experi-menting and exploring rather than the answers When you ask the questions ndash even those that you may not be able to answer ndash yoursquore exploring right along with your child and modeling the process of discovery

                            2 Promote the process of investigation and experimentation to learn more Provide opportunities to pursue a topic of inter-est online at the library or at museums If your child shows an interest in rocks make sure that there are a variety of ways for him or her to dig deeper and learn more

                            3 Model your own curiosity for your chil-dren Share things that you wonder about or want to learn more about Reinforce the idea that wonder and curiosity are the basic elements of learning When you model your interest in learning for plea-sure your child will embrace their learn-ing experiences rather than fear the risk of being ldquowrongrdquo

                            4 Look for opportunities to talk about sci-ence technology engineering and math-ematics in everyday activities I wonder why that happened How do you think that was built Can you imagine an inven-tion that would do that Simple conversa-tions can encourage children to use their imaginations and promote the kinds of innovative thinking essential to 21st cen-tury skills

                            5 Donrsquot panic You are your childrsquos first and most important teacher You donrsquot need a teaching degree to help your child observe and make sense of the world around him or her Itrsquos all about being aware asking good questions encouraging exploration and enjoying it together

                            5 Tips for Parents to Promote STEM-Based Learning 11

                            Pulling It All Together

                            The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                            Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                            You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                            12

                            K-2 Next Generation Science Standards Alignment

                            K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                            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 Next Generation Science Standards Alignment

                            3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                            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 con-straints of the problem

                            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

                            • Cover
                            • Introduction
                            • Table of Contents
                            • The Benefits of Reading Together
                            • Science
                            • Technology
                            • Engineering
                            • Mathematics
                            • 5 Tips for Parents to Promote STEM-Based Learning
                            • Pulling It all Together

                              Pulling It All Together

                              The STEM activities in this guide are designed to give you direction and to demonstrate that learning is not confined to the classroom While the activities are categorized by sub-ject area the key is to make learning fun and promote conversations with your child using real-world examples of science technology engineering and math concepts Unlike a typ-ical school day that is segmented by different classes the reality is STEM-based learning inte-grates problem solving critical thinking and creativity in real-world applications Research indicates that meaningful project-based learn-ing experiences can increase childrenrsquos inter-est in STEM-based careers when they focus on the real world

                              Donrsquot get hung up on the ldquoright answersrdquo rather focus on the process and enjoy the activities together Real-world problems are often complex with no clear-cut solution Through exploratory experiences children can make connections between the problem and the process Understanding what doesnrsquot work and why is as important as finding the solution The primary goal of integrated STEM experiences is to provide students with oppor-tunities to construct new knowledge through the hands-on process of design

                              You are your childrsquos most important teacher and simple activities such as these can provide a valuable foundation for their school experi-ence

                              12

                              K-2 Next Generation Science Standards Alignment

                              K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                              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 Next Generation Science Standards Alignment

                              3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                              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 con-straints of the problem

                              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

                              • Cover
                              • Introduction
                              • Table of Contents
                              • The Benefits of Reading Together
                              • Science
                              • Technology
                              • Engineering
                              • Mathematics
                              • 5 Tips for Parents to Promote STEM-Based Learning
                              • Pulling It all Together

                                K-2 Next Generation Science Standards Alignment

                                K-2-ETS1-1 Ask questions make observa-tions and gather information about a situa-tion people want to change to define a simple problem that can be solved through the devel-opment of a new or improved object or tool

                                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 Next Generation Science Standards Alignment

                                3-5-ETS1-1 Define a simple design problem reflecting a need or a want that includes spec-ified criteria for success and constraints on materials time or cost

                                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 con-straints of the problem

                                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

                                • Cover
                                • Introduction
                                • Table of Contents
                                • The Benefits of Reading Together
                                • Science
                                • Technology
                                • Engineering
                                • Mathematics
                                • 5 Tips for Parents to Promote STEM-Based Learning
                                • Pulling It all Together

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