STEM Collection for K-5: Non-Print Resources

Here’s an annotated bibliography for some great non-print resources that one can add to their school’s STEM collection, along with some seeds for teachers/media specialists.

set game sequence sumoku snap circuits minecraft legos equate game GoldieBlox 1 GoldieBlox 2

LEGO Education Brick Set (884 Pieces)

This set includes bricks in 9 colors and 11 sizes and supports a group of five students. Hands-on, curriculum-based resource that encourages creativity and real-life problem solving; engages learners through play. $55 (Amazon) UPC: 858160448466

 

Seeds:

  • School librarian can have LEGOs as a free play station – maybe as something that students have to “earn” in order to play. Otherwise, have a rotation system.
  • After-school LEGO club – librarian can provide instructions (see LEGO Ideas Book), have themed building days, or encourage free play. Display creations for a week or before the next club meeting.
  • Classroom teachers can check out the set to enrich lesson plans. Scholastics have many ideas and templates on how LEGOs can be used in math to teach part/whole concepts, arrays, fractions, etc. (See http://www.scholastic.com/teachers/top-teaching/2013/12/using-lego-build-math-concepts.) LEGOs can be used to supplement science lessons as well (e.g. students can use LEGOs to model human body system, animal life cycle, food chain, ecosystem, planets, etc.).
  • LEGO robotics (would require additional purchases – such as the Minestorms kits)

 

Snap Circuits Jr. SC-100 by Elenco

Students learn how to create 101 different working electronic circuits and devices. Each kit contains 30 color-coded, real circuit components that snap together easily, as well as an easy-to-follow instruction book. Encourages hands-on learning, critical thinking skills, and connection to real-life situations; fosters persistence/resilience. Grades 3-5. $80 for 4 sets (Amazon) ASIN: B00CIXVITO

Seeds:

  • School librarian can have Snap Circuits as a free play station – maybe as something that students have to “earn” in order to play. Otherwise, have a rotation system.
  • After-school science and tech club where students learn how to build circuits and various projects.
  • Classroom teachers can check out the sets to use in the classroom as a supplement to their lesson on circuits and electricity. Reinforce concepts such as parallel and series circuits, current, resistance, and various forms of electricity (e.g. in sound, in light, etc.). Discuss real life applications of circuits.
  • Have students design their own circuits on paper and hypothesis what it might do/how it might work. Once they built it on the board according to their design, test to see if it works accordingly or not. If not, try to figure out why not and make adjustments as necessary.

 

Honors/Awards:

  • The National Parenting Center Seal of Approval
  • Toy 100 Best Children’s Products
  • Toy 100 Best Educational Products

 

MinecraftEdu by Mojang

The makers of Minecraft, with the help of educators, created a classroom version of the popular game that supports every subject area, from STEM to language, history, digital citizenship, music, and art. It has a growing collection of peer-reviewed “lesson worlds” and activities created by teachers to enrich their classroom teaching. Fosters creativity, spatial skills, collaboration/communication skills; builds a community of learners; teaches digital citizenship; reinforces curriculum and learned concepts in engaging way. Grades K-5. Educational Server, $41; Licenses for 25 workstations, $350 (Mojang.com)

 

Seeds:

  • Afterschool Minecraft Club – provide students with a safe, social environment in which they can engage in creative play, build/explore worlds, collaborate on projects, etc.
  • Due to open-ended nature of Minecraft environment, the game can be used to enrich lessons in almost any subject area. For example, for math, students can be asked to create pens to hold their animals. The pens must have a fixed area of, say, 36m2. How many different lengths and widths can the pens have and what are the different corresponding perimeters? The students must work out the solutions on paper before building them virtually in Minecraft. Similarly, students can practice basic multiplication or divisions in Minecraft. Task them to build 9 pens, each with 4 pigs in it. How many pigs will you have? What if I want only 3 pigs per pen. How many extra pens will I need? Are there other ways to arrange the pigs?
  • For science/social studies, students may be asked to build a community or world that have certain natural resources or commodities. Or, students may be asked to work on map skills by building a world that embodies a variety of elevations, landmarks, roads, rivers, etc. Students can show what they know about food nutrition by building a food pyramid, with labels.
  • More lesson plans/worlds and tutorials can be found at http://services.minecraftedu.com/worlds/ and http://services.minecraftedu.com/wiki/Main_Page.
  • YouTube also has many MinecraftEdu lessons/tutorials

 

Honors/Awards:

  • Game of the Year, PC Gamer UK, 2010
  • Seumas McNally Grand Prize, Independent Games Festival, 2011
  • Multiple awards at the Game Developers Choice Awards, 2011

Goldie Blox Kits by Goldie Blox

Created by Debbie Sterling, a female engineer from Stanford University, these Goldie Blox sets (which come with construction pieces and accompanying books and templates) aim to grow spatial, critical thinking and problem-solving skills and teach basic engineering principles. Design and color schemes appeal to young girls, the company’s target audience. Grades K-3. $55 for 3 sets (Amazon) ASIN: varies

 MATH GAMES

These math games can be used in the media center as a free time station, or be checked out by classroom teachers to provide fun ways for students to increase math fluency.

 

Equate: The Equation Thinking Game by Conceptual Math Media

Students practice creating equations crossword/Scrabble-style. Engaging way to practice using basic math operations, improve fluency, etc. Grades 2-5. $20 (Amazon) ASIN B00004U1RA

Sequence Numbers by Jax

Kids try to get 5 game chips in a row by matching their card – which has an addition or subtraction question – to an answer square on the board. Reinforce addition/subtraction facts and fluency in engaging/fun way. Grades 2-5. $18 (Amazon) ASIN: B001UEMQLQ

 

Set by SET Enterprises

Each card in Set contains one of three symbols, in varying numbers (up to three), colors, and degrees of shading. Players are dealt 12 cards each and quickly make sets of three cards that are connected in some way. Improves perception, pattern recognition, shapes/colors. Winner of over 20 “best game” awards. Grades 3-5. $10 (Amazon) ASIN B00000IV34

 

Sumoku by BlueOrangeGames

A cross between a numbers crossword and Sudoku, Sumoku is where players arrange their numbered tiles so they add up to be a multiple of a rolled “key” number. Students practice addition/multiplication and fluency; subtraction is also used in scorekeeping. Grades 3-5. $15 (Amazon) ASIN: B0037OQDYS

 

Classic Tangoes by Tangoes

Students are challenged to reproduce 1 of 54 tangram puzzles; package comes with two sets of Tangoes so two players can challenge each other. Encourages creative play and problem-solving; fosters persistence/resilience; increases familiarity with geometric shapes and geometry understanding; improves spatial skills. Grades K-5. $10 (Amazon) ASIN B00000K3BU

STEM Collection for K-5: Science/Technology Resources (Print)

Here’s an annotated bibliography for some great science/technology resources that one can add to their school’s STEM collection, along with some seeds for teachers/media specialists.

science mysteries tesla livesofscientists rosierevere ohno 101 science

Barnett, M. (2010). Oh no! Or, how my science project destroyed the world. New York, NY: Hyperion.

A little girl’s winning science fair project – a robot – causes unexpected problems. Book’s humor and illustrations will appeal to readers; connect science to literature. Grades K-3. $13 (Titlewave) ISBN: 978-0-9678020-3-9

Seeds:

  • This would be a good book to read as an introduction to the school’s annual science fair or classroom science projects. Brainstorm other science fair/project ideas, and discuss some of the issues that might arise from these endeavors.
  • With younger students, can discuss why they might want a personal robot. What would they like their robot to be able to do? Have students sketch out a design for their robot, label parts, and write a short paragraph about what it can do.
  • Incorporate other robot activities – start collecting recyclables a couple of weeks in advance, then have students design/build their own robots from the recyclables. Have them write a short paragraph describing what their robot does. Other ideas can be found on Pinterest and around the Internet.
  • Can lead to other resources about robots and scientists’ attempts to design them to perform basic, everyday tasks. With older students, can discuss some challenges scientists face when designing robots.
  • Other books/movies about robots or science experiments gone awry – what are some underlying messages the writers of these books/movies are trying to tell us about science, technology, innovations, etc.:
    • Books:
      • The Robot Book by Heather Brown (2013)
      • Randy Riley’s Really Big Hit by Chris Van Dusen (2012)
      • DK Eyewitness Books: Robots by Roger Bridgman (2004)
      • Hello, Robots by Bob Staake (2004)
      • Sleepy Time Olie by William Joyce (2001)
      • Cosmo and the Robot by Brian Pinkney (2000)
      • etc.
    • Movies
      • Big Hero 6 (2014)
      • Cloudy with a Chance of Meatballs 1 & 2 (2009, 2013)
      • E (2008)
      • Robots (2005)
      • Honey, I Shrunk the Kids (1989)
      • etc.

Honors/Awards:

  • Kirkus Book Review Stars, 2010
  • New York Public Library’s 100 Titles for Reading and Sharing, 2010
  • Golden Duck Award for Excellence in Children’s Science Fiction Literature, 2011
  • Society of Illustrators Original Art Award, 2010

Beaty, A. (2013) Rosie Revere, engineer. New York, NY: Abrams Books for Young Readers.

A budding inventor, Rosie dreams of becoming a engineer despite some challenges and her fear of failure. Celebrates girls in the sciences, creativity, critical thinking skills, persistence/resilience (AASL 21st-century learner disposition), etc. Connects curriculum to real-life problem solving skills; National science standards and Common Core aligned. Grades K-5. $9 (Amazon) ISBN: 978-1419708459

Seeds:

  • The endpapers of this book are done in graph paper. Give out graph paper to students and have them invent their own contraption. Brainstorm different problems they might be able to solve with their invention, or other reasons they might have for inventing something (e.g. to solve a problem, to improve a process, for entertainment, etc.). Label parts and write a paragraph about what their invention does.
  • Collect recyclables a couple of weeks before the unit. After reading this book, have students build something out of the recyclables and write a paragraph about what it is, what it does, etc. Students can then present their creations to the class. (Might want to set some guidelines about what these contraptions can or cannot be. e.g. cannot be a weapon, can be built using household products, etc.)
  • Discussion: Do you think girls make good scientists/mathematicians/engineers? Why or why not? Why do you think girls historically have been discouraged to go into these types of study/careers? Older students can research a well-known woman in history (could extend outside of science and engineering) and write about her contributions and why they are important to our world today.
  • More resources can be found at Titlewave: http://www.titlewave.com/ccssresource?SID=15e04be911b6cc70665c01fa6e025b94&resourceid=2413

Honors/Awards:

  • Parents’ Choice Award, 2013
  • Amelia Bloomer Project List, 2014

Becker, H. (2008). Science on the loose: Amazing activities and science facts you’ll never believe.

This book contains fun, sometimes messy, experiments that students can carry out using ordinary household items, along with the scientific principles behind them. Covers concepts such as chemical reactions, genetics, senses, as well as an overview of the science inquiry process. Grades 3-5. $10 (Titlewave) ISBN: 978-1-897349-19-9

Honors/Awards:

  • Canadian Children’s Book Centre Best Books for Kids and Teens, 2009
  • Cybil Award finalist, 2008

Burns, L. G. (2012) Citizen scientists: Be a part of a scientific discovery from your own backyard. New York, NY: Henry Holt.

Students learn about citizen science and how they can conduct in actual scientific studies such as the Audubon Bird Count and FrogWatch USA. Includes suggestions for 4 projects (one for each season). Connects learning in science classrooms to the real world; encourages inquiry-based learning and critical thinking skills. Grades 3-5. $9 (Titlewave) ISBN: 978-0-8050-9517-3

Seeds:

  • Discuss “citizen science”: what is it, who can participate, qualifications, etc. Why might this movement be important? What role can our class, you, or your family play in this?
  • Research some citizen science projects that your classroom can easily be involved with. Discuss each and choose one to participate as a class. Similarly, have students research different citizen science projects that they and their families can get involved with. Students and their families can sign on to a project and have students write a report on the experience (what they chose, what they did, was it a success, why or why not, etc.). Talk about some of the things we might need to consider before choosing a project – is the project seasonal, is it restricted by location/geography, does it require special equipment, etc. (Some ideas can be found on the National Wildlife Federation web page: http://www.nwf.org/Wildlife/Wildlife-Conservation/Citizen-Science.aspx)
  • Discuss the scientific inquiry process and what it means to really “observe” something. What are some of the tools a citizen scientist might need/use (e.g. magnifying glass, binoculars, field notebooks, pencils, etc.)? What is data collection and why is it important?

Honors/Awards:

  • NYPL Children’s Books 2012
  • School Library Journal Book Review Stars, 2012
  • NSTA’s Outstanding Science Trade Books for Students K-12, 2013
  • Green Earth Book Award, 2013

Cate, A. L. (2013) Look Up!: Bird watching in your own backyard. Somerville, MA: Candlewick Press.

A humorous introduction to bird-watching goes beyond being a guidebook to encouraging students to head into their own backyard to observe and sketch what they might find. Connects science curriculum to real-world learning; encourages life-long learning. Grades 3-5. $12 (Amazon) ISBN: 978-0763645618

Seeds:

  • Discuss the scientific inquiry process and what it means to really “observe” something. What are some of the tools a citizen scientist might need/use (e.g. binoculars, sketch books, pencils, camera, field guides, etc.)? What is data collection and why is it important? What kind of questions might we ask about when it comes to birds and bird watching?
  • Discuss “citizen science”: what is it, who can participate, qualifications, etc. Why might this movement be important? What role can our class, you, or your family play in this?
  • Research some citizen science projects that your classroom can easily be involved with. Discuss each and choose one to participate as a class. Similarly, have students research different citizen science projects that they and their families can get involved with. Students and their families can sign on to a project and have students write a report on the experience (what they chose, what they did, was it a success, why or why not, etc.). Talk about some of the things we might need to consider before choosing a project – is the project seasonal, is it restricted by location/geography, does it require special equipment, etc. (Some ideas can be found on the National Wildlife Federation web page: http://www.nwf.org/Wildlife/Wildlife-Conservation/Citizen-Science.aspx)

Honors/Awards:

  • ALSC Notable Children’s Books, 2014
  • Cybil Award, 2013 winner
  • Sibert Informational Book Medal, 2014 honor
  • Other best lists

Fleming, C. (2013) Papa’s Mechanical Fish. New York, NY: Farrar, Straus and Giroux.

Based on the real-life inventor Lodner Phillips, this story tells of Papa, who, after many failed inventions, builds a submarine and takes his family on a fishing trip to the bottom of Lake Michigan in 1851. Connects science curriculum to real life people. Grades K-3. $13 (Amazon) ISBN: 978-0374399085

Seeds:

  • Collect recyclables a couple of weeks. After reading this book, have students build something out of the recyclables and write a paragraph about what it is, what it does, etc. Students can then present their creations to the class. (Might want to set some guidelines about what these contraptions can or cannot be. e.g. cannot be a weapon, can be built using household products, etc.) What is the purpose behind their creation – does it solve a problem, make something easier to do, etc.?
  • Discuss what it means to be persistent/resilient even when you face challenges (a AASL 21st-century disposition). Why should we persevere rather than quit? Have students write a paragraph about a time when they ran into a difficulty or faced failure and persisted anyway.

Honors/Awards:

  • Best Picture Books, 2013
  • Children’s Books of the Year, 2014 Ages 5-9
  • NSTA Outstanding Science Trade Books for Students K-12, 2014

Kamkwamba, W. (2012) The boy who harnessed the wind.

A fourteen-year-old Malawi boy saved his village from drought by figuring out a way to use wind to harness electricity. Connects science to real-world problem solving; teaches persistence/resilience in midst of adversity; biographies/autobiographies. Grades K-5 $13 (Amazon) ISBN: 978-0803735118

 

Seeds:

  • Discuss how William Kamkwamba was able to identify a problem in his community and how he went about solving it. Was he able to solve the problem overnight? (No, it took him several years to figure out how to harness the wind.) What if he quit the first time he failed or the first time someone told him no? Have students write or talk about an instance where they persevered and what they were able to accomplish.
  • Discuss windmills and other ways we generate electricity/energy. Is one form better than another? Why or why not? Older students can research on green/clean energy.
  • Brainstorm some problems the world is facing today. Assign each issue to a small group of students and have them discuss ways they would go about solving the problem. Have students present their ideas to the class. Identify solutions that are doable and encourage students to do it!
  • Older students: Teacher can do a class read-aloud of the full-length memoir (same title) written by William Kamkwamba and Bryan Mealer.

 

Honors/Awards:

  • Amazon Editors’ Picks for Best Books of the Year, 2012
  • NSTA Outstanding Science Trade Books for Students K-12, 2013

Krull, K. (2013). Lives of the scientists: experiments, explosions (and what the neighbors thought). Boston, MA: Houghton Mifflin Harcourt.

A fun look at well-known scientists and their often-eccentric personalities and anything-but-dull lives. Quirky stories will appeal to reluctant readers and budding scientists alike. Can serve as introduction to biography genre. Offers real-world connections. Grades 3-5. $14 (Amazon) ISBN: 978-0152059095

 

Seeds:

  • This can be an introduction to a unit on biographies/autobiographies (discuss the difference). Students can be asked to write their own autobiography, or research a scientist (or president, artist, historical figure, mathematician, etc., depending on the subject) and write a short biographical paper on the person. Brainstorm types of things to include in the paper that the readers will find interesting.
  • Discuss fiction vs. non-fiction, truths vs. myths. How might you go about verifying that these stories of famous scientists are, in fact, true?
  • Can also talk about how to select appropriate resources – if students are asked to do a research paper on a scientist’s particular contribution to the world, would this be a good source of information or not? Why or why not? Talk about other resources that might be more appropriate.

 

Honors/Awards:

  • Notable Social Studies Trade Books for Young People, 2014
  • Outstanding Science Trade Books for Students K-12, 2014

Lipkowitz, D. (2011) The LEGO ideas book: Unlock your imagination. New York, NY: DK Children.

The book provides numerous ideas for LEGO creations beyond the box instructions, including six themes: transportation, building, space, kingdoms, adventure, and useful makes. Encourages creative play; engineering. Grades K-5. $15 (Amazon) ISBN: 978-0756686062

 

Seeds:

  • Can be used in conjunction with LEGO bricks at a station in the library media center to be used during free play time.
  • Can also be used for guided builds. For example, students can be asked to build a biome or habitat that they have learned about in their science class. Or, build a picture frame using dimensions and units students learned in math.

 

Honors/Awards:

  • IRA & CBC Children’s Choices Selection, 2012

 

Pflugfelder, B. Nick and Tesla 5-item series. Philadelphia, PA: Quirk Books.

In this illustrated series (with 24-32 pages of blueprints/instructions for gadgets readers can build themselves), twins Nick and Tesla solve neighborhood mysteries by doing some detective work and building gadgets with common household objects. Appeals to students who like reading novels and who also enjoy science/technology and inventions. Encourages lifelong learning and reading for pleasure; connects science to real-world critical thinking and problem solving skills. Grades 3-5. $55 (Titlewave)

Romanek, T. (2001) The technology book for girls and other advanced beings. Toronto, ON: Kids Can Press.

Targeted to girls, this book shows how much technology is embedded in our daily lives, and how items like the TV remote and automatic doors actually work. Sidebars discuss interesting careers in technology, and there are many ideas for activities and science fair projects. Connects science/technology to the real world; encourages girls in STEM. Grades 3-5. $10 (Amazon) ISBN: 978-1550746198

 

Honors/Awards:

  • NSTA Outstanding Science Trade Books for Children, 2002
  • Parents’ Choice Award, 2001
  • Children’s Books Canada Science in Society Book Award, 2001

Rusch, E. (2013) Electrical wizard: How Nikola Tesla lit up the world. Somerville, MA: Candlewick Press.

The story of how Serbian-American scientist Nikola Tesla used his childhood fascination with electricity to invent alternating current and many common household devices that use electric power in our homes. Encourages lifelong learning and inquiry-based problem solving; also an introduction to biographies. Grades 3-5. $15 (Titlewave) ISBN: 978-0-7636-5855-7

 

Seeds:

  • Discuss some of Nikola Tesla’s ideas/inventions and how our everyday lives might be different without them.
  • Introduce unit on electric circuits. Use with Snap Circuits kits.
  • This can be an introduction to a unit on biographies/autobiographies (discuss the difference). Students can be asked to write their own autobiography, or research a scientist (or president, artist, historical figure, mathematician, etc., depending on the subject) and write a short biographical paper on the person. Brainstorm types of things to include in the paper that the readers will find interesting.

 

Honors/Awards:

  • Children’s Books of the Year, 2014
  • NSTA Outstanding Science Trade Books for Students K-12, 2014

 

Swanson, D. (2009) Nibbling on Einstein’s brain: The good, the bad & the bogus in science. Toronto, ON: Annick Press.

This book introduces the idea that there can be good science and bad science, that some research – however “official” they might appear – can prove to be faulty, misinterpreted, biased, and unreliable. Encourages critical thinking and ability to evaluate and select appropriate/authentic resources. Grades 3-5. $10 (Titlewave) ISBN: 978-1-55451-186-0

Seeds:

  • This can be used in the science classroom to teach about the scientific inquiry process. Discuss the importance of forming the right questions, designing the right experiments, data collection and observations, etc. When reading an article or trying to choose a side in a scientific debate, how can factors like authorship and research methodology help us decide whether something is ultimately useful/authoritative or not?
  • Can also be used in the media center for lesson on authority/authenticity of information – the importance of verifying your sources, how to verify it, etc. Talk about bias and point of view, and how these can affect the resource you are using. Can incorporate a “Fact or Fiction” activity where students have to determine whether a statement is true or false by looking for evidence.
  • This could be used outside of science – in social studies, history, information literacy, etc.

 

Honors/Awards:

  • Best Books for Children, 2002
  • ALA Booklist Top 10 Sci-Tech Books for Youth, 2002
  • Los Angeles’ 100 Best Books, 2001 IRA Children’s Literature and Reading SIG
  • Children’s Books Canada Science in Society Book Award, 2001 shortlist
  • White Ravens Award, 2002 winner

Wyatt, V. (2008). The science book for girls and other intelligent beings. Toronto, ON: Kids Can Press.

Though this book can be great for all readers, its goal is to spark girls’ interest in science through experiments in zoology, botany, geology, chemistry, and physics. Readers learn about different science careers that use critical thinking skills, deductive reasoning, and inquisitive minds. Connects classroom learning to real-life situations and problem-solving strategies; encourages life-long learning. Grades 3-5. $18 (Amazon) ISBN: 978-1550741131

 

Honors/Awards:

  • Silver Birch Award nominee, 1994

 

Yoder, E. (2013). One minute mysteries: 65 short mysteries you solve with science! Washington, DC: Science, Naturally!

This collection of 65 short mysteries provide a fun way for students to develop critical thinking skills and will appeal to even the most reluctant readers. Covers themes such as life science, earth and space, physics and chemistry, and connects science to real-life problem solving. Common Core aligned for using content knowledge, critical thinking skills, and constructing a response. Grades 3-5. $7 (Titlewave) ISBN: 978-1-938492-00-6

 

Seeds:

  • Teachers can use these as “Science Riddle of the Day” or as a warm-up activity before a science lesson. Can also be an activity choice for early finishers.
  • If using as a group activity, have students work individually or in pairs first to develop their solutions, then have them share their thinking with the rest of the class. Talk about how one person might approach a problem differently than another.

 

Honors/Awards:

  • Children’s Books of the Year, 2014 – ages 9 to 12

STEM Collection for K-5: Math Resources (Print)

Here’s an annotated bibliography for some great math resources that one can add to their school’s STEM collection, along with some seeds for teachers/media specialists.

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Burns, M. (1994). The Greedy triangle. New York, NY: Scholastic.

A dissatisfied triangle seeks the help of a shapeshifter to try adding different lines and angles to his shape. Introduces geometric shapes and terms such as line and angles. Grades K-2. $5 (Titlewave) ISBN: 978-0-545-04220-8

Seeds:

  • Lesson on different geometric shapes and their properties (e.g. lines, angles, vertices, etc.).
  • Where might we see such shapes around us? Go on a walk around the classroom or school to discover these shapes. As an extended activity, have kids try to find these shapes in magazines and cut and paste them into their math journals.

Campbell, S. (2010). Growing patterns: Fibonacci numbers in nature. Honesdale, PA: Boyds Mills Press.

Students are introduced to the fascinating Fibonacci sequence (each new number in the sequence is the sum of the two numbers preceding it) and how this pattern is observed in nature. Connects classroom learning to real life environment. Grades K-5. $12 (Amazon) ISBN: 978-1590787526

Seeds:

  • Though the Fibonacci sequence is not usually taught in elementary schools, this could be used as an example in a discussion about different number patterns. Older students can come up with their own examples of number sequences and see if their classmates can come up with the pattern.
  • This can also be used as an example of how math can be found outside the classroom.   Younger readers can use this book to practice counting. They can also be challenged to bring in objects from nature that display some sort of recurring pattern (e.g. a shell, a pinecone). The class can also take a nature walk in search of these items.
  • Teachers can view this video on Fibonacci numbers for more information: http://www.ted.com/talks/arthur_benjamin_the_magic_of_fibonacci_numbers.

Honors/Awards:

  • ALSC Notable Children’s Books, 2011
  • NSTA Outstanding Science Trade Books for Students K-12, 2011

Demi. (1997). One grain of rice: A mathematical folktale. New York, NY: Scholastic Press.

In this Indian folktale, a clever village girl, Rani, saves her village from starvation by asking the selfish raja for one grain of rice, to be doubled each day for 30 days. Connect math concepts to real-life problem-solving. Grades 1-5. $16 (Amazon) ISBN: 978-0590939980

Seeds:

  • Have student test out the power of doubling on their parents. Provide worksheets where students can first estimate how much money they might amass if (a) their parents were to give them a penny everyday for 30 days vs. if (b) their parents were to double the amount each day for 30 days. Have them work out the different answers, using a calculator if necessary.
  • Rani was able to save an entire village from starvation using a simple math operation (doubling). Challenge students to think about other “big problems” that they might be able to solve with simple solutions. Students can work in pairs or groups and present their ideas to the class.

Honors/Awards:

  • NCSS Notable Social Studies Trade Books for Young People, 1998
  • School Library Journal Best Books, 1997
  • Various best lists

Heiligman, D. (2013). The boy who loved math: The improbable life of Paul Erdos. New York, NY: Roaring Brook Press.

In this picture book biography of Paul Erdos, readers learn about the eccentric mathematician’s childhood fascination with numbers. Detailed information on Erdo’s life can be found in the author’s notes. Promotes real-world connections and development of individual research and learning. Grades K-5. $12 (Amazon) ISBN: 978-1596433076

Seeds:

  • Younger students will enjoy learning about various oddities of this math genius (e.g. he never learned how to cook or do laundry).
  • Older students can try to spot – and maybe solve – the hidden math allusions and puzzles that can be found in the book. Print out simple math puzzles that the students can solve in class or at home for fun.
  • Discuss prime numbers. There is a famous theorem in math that there is always a prime number between any number and its double. Challenge older students to play with some numbers to see if this is true or not.
  • The author writes this of Erdos, “He didn’t like rules in life, but he liked rules in numbers.” Discuss with students why this might be the case – whether there are school rules they don’t like (maybe because they seem arbitrary, unreasonable, etc.) – and why Erdos might prefer to focus on numbers.
  • Older students can do further research on Erdos or other mathematicians, scientists, artists, etc. who might have lived interesting lives (provide them with a list to choose from).

Honors/Awards:

  • ALSC Notable Children’s Books, 2014
  • Children’s Books of the Year 2014
  • Orbis Pictus Award: Honor Books 2014
  • Kirkus Editor’s Choice Children’s Books, 2013

LoPresti, A. S. (2003). A place for zero: A math adventure. Watertown, MA: Charlesbridge.

Zero feels like he is nothing, so he goes on an adventure to search for his place in the world. Through his journey, readers learn about special properties of zero. Teaches/reinforces mathematical concepts of counting and numbers, as well as basic operations. Grades K-5. $6 (Titlewave) ISBN: 978-1-57091-196-5

Seeds:

  • Discuss the number zero and its special properties as mentioned in the book. Have students brainstorm why it’s important.
  • Discuss basic operations – adding and subtracting (with younger students), multiplying and dividing (with older students) – and zero’s role in those operations.
  • Discuss why everyone has a place in the world and a purpose in life, even if it doesn’t seem like it. Have students discuss times when they might have felt “less than” and how they were able to overcome those feelings/beliefs. Play a game where students say something they think they contribute to the class, their family, their world, etc. For example, “My name is Jennifer. I am an important part of my classroom because I contribute ideas in math!” or “My name is John. I am an important part of my family because I help take care of my pets.”

Neuschwander, Cindy. (1997). Sir Cumference and the first round table: A math adventure. Watertown, MA: Charlesbridge.

Threatened by a neighboring kingdom to go to war, King Arthur enlists the help of Sir Cumference and his family and friends to build a table that would be perfect for strategizing and forming a peace plan. Older students will enjoy the play on words in many of the characters’ names. Teaches/reinforces mathematical concepts: geometry, size and shape; encourages creative problem-solving using math. Grades 3-5. $6 (Titlewave) ISBN: 978-1-57091-152-1

Seeds:

  • Introduce terms related to a circle, such as circumference, radius, and diameter.
  • Have students brainstorm different ways they can draw a perfect circle? Is it possible to do it freehand? With a lid, glass, or another object you might have in the classroom/home? What math instrument can we use to draw a more precise circle? Have students practice drawing circles in a variety of ways, including using a compass.
  • More activities and lesson ideas can be found on the publisher’s web site: http://www.charlesbridge.com/client/client_pdfs/downloadables/RoundTableDiscussionGuide.pdf

Schnitzlein, D. (2007). The monster who did my math. Atlanta, GA: Peachtree.

A boy struggling with math takes up a monster’s offer to help do his homework. It all seems to go perfectly until he has to take a test and realize he hasn’t learned anything. A good way to start a discussion on homework expectations/responsibility and math anxiety, and a good choice for reluctant/insecure mathematicians. Grades 1-3. $6 (Titlewave) ISBN: 978-1-56145-668-0

Seeds:

  • Encourage students to share their honest opinions, fears, and anxieties (if any) about math, but offer ways to cope and see that it can be useful and fun.
  • Discuss the boy’s decision to pay the monster to do his math homework. What are the advantages to his decision? What are some consequences?
  • Discuss why homework might seem like a chore but is actually important. Brainstorm ways students can make the process less painful. (e.g. Use free time to complete homework at school. Ask questions during class to avoid frustrations at home.)

Honors/Awards:

  • Storytelling World Resource Award, 2009

Schwartz, D. (1985). How much is a million? New York, NY: Scholastic.

This classic helps students conceptualize what a large number like “a million” might look like or mean. Provides a concrete way to visualize numbers, compare and contrast numbers. Reinforces concept of counting and cardinality; supports Common Core Standards. Grades K-3. $5 (Titlewave) ISBN: 978-0-688-09933-6

Seeds:

  • Examine the number “1,000,000”. Have students name as many place names as they can, starting from the ones place all the way to the millions place. How many zeros do you count in the number “1,000,000”…how many more do you have to add to get to a billion or a trillion?
  • What are some things that are usually counted by the millions (e.g. stars, number of people in a country, money)? Have students brainstorm while the teacher writes down ideas on the board.
  • An educational video for the book can be found on YouTube https://www.youtube.com/watch?v=MKkK87E46I4
  • For more extension activities, visit http://www.scholastic.com/teachers/lesson-plan/how-much-million-discussion-guide

Honors/Awards:

  • ALA Notable Book, 1995
  • Reading Rainbow Feature Selection
  • Boston Globe/Horn Book Honor Book for Illustration

Scieszka, J. (1995). Math curse. New York, NY: Viking.

A girl wakes up to find everything in her life resembling a math problem and decides her math teacher must have put her under a math curse. Younger students will enjoy the funny (sometimes nonsensical) writing and illustrations and older students will appreciate the inside math jokes and references. Highly humorous and visual format will appeal to reluctant readers/mathematicians; connects math and problem-solving strategies to real-life problems. Grades 2-5. $13 (Amazon) ISBN: 978-0670861941

Seeds:

  • Have student write a real-life math problem on a big piece of paper. The teacher can provide guidelines on the type of problem or skill that the students need to incorporate (e.g. something that’s related to a unit the students are working on). Once students have written down their problems, they can move around the room and try to solve at least 3 other students’ problems.
  • Brainstorm different real life problems that we can use math to solve. Select an interesting one from the brainstorm session and attempt to solve it with math, as a group. Alter the problem as necessary to fit the students’ skill levels or the unit they are studying.
  • What are some ways math could appear like a “curse”? What are some ways math could help in the world? Encourage students to share their honest opinions, fears, and anxieties (if any) about math, but offer ways to cope and see that it can be useful and fun.

Honors/Awards:

  • ALSC Notable Children’s Books, 1996
  • School Library Journal Best Books, 1995
  • YALSA Best Books for Young Adults, 1996
  • NCTE Adventuring with Books Best Book for PreK-Grade 6, 1997
  • Numerous other lists

Tang, G. (2001). The grapes of math. New York, NY: Scholastic.

This collection of math puzzles contains rhymes and colorful illustrations that teach creative problem-solving techniques such as grouping, finding patterns, combining multiples, and subtracting to add. Encourages students to approach math problems using different strategies; aligns with Common Core Standards. Grades K-5. $5 (Titlewave) ISBN: 978-0-439-59840-8

Seeds:

  • Discuss how there is no one set way to “do math” or solve a math problem. Pose a math problem on the board and have students work independently on solving it. After some individual thinking time, call on students to share their solutions. Discuss their thinking process – whether their final answers are correct or not – and why they chose a certain technique or strategy.

Honors/Awards:

  • NCTE Adventuring with Books Best Book for PreK-Grade 6, 2002
  • International Reading Association Teachers’ Choices, 2002
  • Numerous other lists

Wyatt, V. (2000). The math book for girls and other beings who count. Toronto, ON: Kids Can Press.

Students learn different ways math is used in the real world, in tasks such as baking a cake (fractions, measuring), planning a party (basic math for budgeting), making decorations using geometry, etc. Sidebars also showcases different careers that utilize math (e.g. veterinarians, architects, computer programmers, interior decorators, etc.). Connects classroom learning to real-life situations and problem-solving strategies. Grades 3-5. $7 (Titlewave) ISBN: 978-1550745849

Yoder, E. (2010). One minute mysteries: 65 short mysteries you solve with math! Washington, DC: Science, Naturally!

This collection of 65 short mysteries provide a fun way for students to develop critical thinking skills and will appeal to even the most reluctant mathematicians. Covers math concepts such as geometry, data/statistics, algebra, and measurement, and connects math to real-life problem solving. Common Core aligned. Grades 3-5. $9 (Titlewave) ISBN: 978-0-9678020-0-8

Seeds:

  • Teachers can use these as “Math Riddle of the Day” or as a warm-up activity before a math lesson. Can also be an activity choice for early finishers.
  • If using as a group activity, have students work individually or in pairs first to develop their solutions, then have them share their thinking with the rest of the class. Talk about how one person might approach a problem differently than another.

Honors/Awards:

  • International Book Award, Finalist 2011

Zev, M. (2010). 101 things everyone should know about math. Washington, DC: Science, Naturally!

Using a question and answer format, this award-winning title helps students draw connections between math and everyday life, in areas such as sports and cooking. The book also contains math trivia and history and the simple explanations will appeal to even the most reluctant mathematicians. Connects math topics with real-life problems; Common Core aligned. Grades 3-5. $7 (Titlewave) ISBN: 978-0-9678020-3-9

Honors/Awards:

  • USA Book News National Best Books Award, 2011