Posts Tagged Joyce Sidman

STEM Tuesday– Celebrating Women’s History Month– In the Classroom

By on March 12, 2019   /   Cross-Curricular, STEM Tuesday, Women's History Month  

 

This STEM Tuesday, Jodi and Carolyn are teaming up and tackling it all–well, almost! Literacy, science practices and a cross-cutting concept, technology tie-ins, and gender and general equity in STEM. It goes to show you what a couple of great books can do to stimulate learning–our own and, we hope, your students! So let’s get going…

 

Literacy Connection: Writing Prompts!

It’s March, which means that it is Women’s History Month. In schools, March is also the time when teachers of all subjects are especially pressured to give writing assignments that will help prepare students for upcoming writing assessments. You can “celebrate”  both with Women in Science: 50 fearless pioneers who changed the world, by Rachel Ignotofsky.

 

This book contains an excellent collection of 1-page descriptions of female scientists’ lives and careers. Let’s look at how you can use them to quickly pull together writing prompts.

 

Rachel Ignotofsky’s opening pages (p. 6-7) provide an excellent introduction for the prompt:
Next, pivot to the actual prompt:

Finally, add in your question. Here are some suggestions you might consider, based on your area of science:

That’s all there is to it! Strong texts on an important subject, and writing practice for all.

 

STEM Connections: Patterns and Practices

The Girl Who Drew ButteSupport Independent Bookstores - Visit IndieBound.orgrflies offers wonder-full opportunities to connect kids to NGSS disciplinary core ideas (e.g., heredity). But its value goes beyond DCIs. Together with carefully paired experiences, this inspirational book promises to stimulate learning in the areas of science practices and the cross-cutting concept of patterns.  It also suggests strong connections to technology and engineering, art, and fostering gender (and general) equity in STEM. Doesn’t that paint a powerful picture? (Just like Maria Merian!)

Bring Up “Baby” (Eggs, Instars, etc.) for Pattern Recognition

Of course, the focal points of Merian’s scientific studies–body forms and regular, predictable repetition of life cycles of insects, and these animals’ relationships to specific plants– offer key examples of patterns.

An obvious—and engaging–learning link: Nurture butterflies from eggs (or instars, AKA caterpillars)! Choose painted lady butterflies or monarchs.

Better yet…

Make a Menagerie of Metamorphosis!

Raise multiple species! For example, rear painted ladies, monarchs, and add in “brassica butterfly” eggs , various moths, and the  mealworms (which are neither butterflies nor moths).

 

Add Power and Punch with Plants

Echo Merian’s emphasis on ecological relationships by providing plants that your particular classroom specimens rely on.  For example, raise the “brassica butterfly” on the quick-growing Wisconsin FastPlants® variety of brassica, which allows students to examine a complete plant life cycle. Free lesson and activity guides  are available.  (The plants won high marks with teachers in one of my recent curriculum-based professional development programs.)

 

Outward Bound

For more info on tagging butterflies, visit Monarch Watch.

Are you fiscally and philosophically motivated to follow Maria Merian’s lead and head outdoors for your specimen? Missouri Botanical Garden offers user-friendly suggestions.

Exploring Patterns with Your Classroom Zoo (and a Garden, Too)

Observing the live specimens can foster awareness and understanding of patterns. Explicitly use the term while prompting students to reflect on their daily observations and data.

Exploring Patterns: Questions to Ask

 
  • For each individual species, what is the body pattern (the way the parts look and relate to each other, the basic template or form)? What differences, or variations, do we notice across individuals of the same species?
  • Investigate each species’ development, or life cycle, pattern: How many days do individuals spend in each phase of development? Is there a wide variation or a narrow range of time from one phase to another? (Can we tell without banding or marking individuals)?
  • Over each species’ life stages, what predictable relationships between the animal’s behavior and its stage do you see? Do these patterns make sense? What questions do they raise?
  • Across species: Compare and contrast the life cycle stages in different species. Are there any general patterns of development across species? What variations across different species do we see?
  • How do the animals’ and plants’ life cycles resemble and differ from each other?
  • What are the relationships between the species and the plants they rely on? Are their cycles synced in any way you can see?

Science Practices Make Perfect Connections!

You can foster development and understanding of science practices while interweaving The Girl Who Drew Butterflies and classroom studies of animals (and their plant hosts).

Practice 1: Asking Questions (for science)

While reading about Merian’s habit of hoarding insects for study, ask students to list the questions they think she had in mind; post them. (Although understanding the curiosity that drove her may be straightforward, articulating questions might be challenging.) Ask students which they think are most interesting.

Take students on a walkabout in a suitable outdoor space. Look for butterflies, moths, and other insects at various stages. (Remember to check out water insects if you can!) Begin preparations by encourage students to look with the eyes and questioning mind of Maria:

 

  • What questions do students have that relate to her curiosity? Which of these do students think they can investigate simply by going outside and carefully observing?
  • Plan to bring notebooks/sketch pads, trowels, rakes, nets, magnifying lenses, and small containers (such as salad dressing cups or baby food jars) to help unearth, collect for observation, and examine what students find.

Over time, as students get into a rhythm of recording data (including their observations), discuss their observations, questions, and any “wonderings” that are coming up for them. Keep a running list of questions on cards that you post.  Eventually, classify questions according to those that someone could/could not investigate by  running an experiment or planned observation. Consider trying some student-suggested investigations in your classroom, possibly guiding students to adapt and simplify questions as needed.

 

 

Practice 8: Obtaining, Evaluating, and Communicating Information

This practice stems from and leads to the practice of asking questions. To deepen this connection, explicitly  involve students in identifying ways to collect and record data.

  • What will help us compare and contrast what they see across individual animals within a species, and across species?
  • As we try different approaches, what are the benefits and disadvantages of each?
  • What type of numerical data might be interesting and important to track? (Suggestions: numbers of individuals within a species population that survive to adult form, growth of individuals at, weight of food offered and consumed, numbers of certain features (spots, sensory organs, etc.).

 

  • Sketch the specimens but also keep notes of daily observations of change and constancy. Compare and contrast classroom records with information from other sources about other species.

  • Students might try making watercolor sketches the way Merian did!

 

  • Encourage students to think about the relationships of art, science, and technology in relation to this practice:

 

  • How does making sketches help you as a scientist?
  • How does being a scientist help you as an artist?
  • Maria made prints and books for sale. How did printing technology contribute to scientific knowledge and Maria’s ability to continue studying insects?

 

Add photography and videography to expand this opportunity for students to reflect on how technology helps us in scientific inquiry.

  • Compare and contrast the benefits and drawbacks of using pencil, watercolor, still photography, and video to document, enhance, and communicate observations.
    • What differences do we see among the drawings created by different individuals? How might such differences impact a scientific community?

 

Technology Tie-Ins: Use Insect Info to Solve Agricultural Problems

Two free lessons from the Cape Cod Cranberry Growers Association engage students in practical applications of understanding insects life cycles and ecological relationships. Bugs on the Bog is an Integrated Pest Management problem-solving activity. Students rely on knowledge of pest insect stages to manage a model cranberry bog. How Do You Bee? focuses on ecological relationships between pollinators and plants at different plant stages.

(Disclosure: My educational consulting firm developed the CCCGA lessons.)

 

 

Mind the (Gender, SES, Racial, etc.) Gap: All Students as Scientists

Maybe these ideas and resources will bring about a full-scale metamorphosis in any beliefs that threaten your students’ pursuit of STEM:

 

  • Prominently post pictures of students that provide evidence that they are already scientists. Have students take and/or caption the pictures.

 

  • Discuss the book’s claims and evidence that Merian’s culture constrained, but didn’t stop, her.
    • Today, what beliefs might hinder or help you and others thrive as scientists?

These materials might support student exploration of this question.

 

We–Jodi and Carolyn–have had our say about this week’s featured books and connections to the classroom. But we’re most interested in hearing from you.

  • Have you read the books?
  • …Used them to foster science learning and engagement on the part of learners?
  • Do you want to recommend any additional resources or share a great lesson idea?
  • Share your thoughts; leave a comment!

(And Happy Pi Day!)

Jodi Wheeler-Toppen is a former science teacher and the author of the Once Upon A Science Book series (NSTA Press) on integrating science, reading, and writing instruction.  She also writes for children, with her most recent book being Dog Science Unleashed: Fun Activities to do with Your Canine Companion. Visit https://OnceUponAScienceBook.com for more information on her books and staff development offerings.

 

Carolyn Cinami DeCristofano is a STEM education consultant and provides curriculum development and professional development to schools and nonprofits as Blue Heron STEM Education, Inc., which she co-founded. Her books for kids include the popular A Black Hole is NOT a Hole (published in English, Korean, Chinese, and as an audiobook), and her recent Running on Sunshine: How Solar Energy Works. Find her in classrooms providing author visits, on Facebook –and in April 2019 at the National Science Teachers Association conference in St. Louis, where she will co-present on using authentic data in the classroom and participate–along with Jodi and several other STEM Tuesday contributors–in the Linking Literacy Event, which features conversations with authors.

 

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STEM Tuesday Cool Inventions and the People Who Create Them – In the Classroom

By on May 8, 2018   /   Inventors / Inventions, STEM Tuesday  

Cool Inventions and the People Who Create Them

For this In the Classroom feature, I’m taking a broad view of the idea of “invention,” and including similar processes, such as discovery (science) and engineering, although each is unique.I’ve also tried to give a broad range of possible activities–some of them hands-on STEM experiences, others more literary, imaginative, or whimsical, to help you ignite the type of passion and curiosity that your students will be reading about in this month’s books.

Support Independent Bookstores - Visit IndieBound.orgMind Your (and Your Students’) Metaphors
You can explore metaphors and our perceptions of discovery, while learning about a whole range of innovators, with Joyce Sidman’s Eureka! Poems about Inventors (illustrated by K. Bennett Chavez).

Especially with older students, you can begin by conducting the survey described and discussed in Kristen C. Elmore and Myra Luna-Lucera’s work, article, “Light Bulbs or Seeds? How Metaphors for Ideas Influence Judgments About Genius,” which examines how specific metaphors about discovery influence our perceptions of the not just of the process, but, perhaps surprisingly, of the discoverers and value of their achievements. After students respond to the survey (resources are provided in the article), let them in on the whole study and discuss their own responses in light of the researchers’ findings.

Then crack open Eureka! While enjoying the poems and thinking about the inventors, also of looking for the ways in which design, discovery, and invention are portrayed. In any poem, does Sidman seem to see the inventor’s experience as  a “light bulb moment” (as the book’s title suggests), or as a process of  “nurturing seeds?” Perhaps something else? Overall, does Sidman’s view of invention seem to favor one metaphor or the other? (Keep in mind that you can continue this discussion with respect to other books from this month’s list.)

Of course, after students read the stories in Eureka! it makes perfect sense for them to write their own poems about:

  • Their own experiences of discovery or engineering insight
  • Other innovators featured in this month’s books–Elon Musk or Isaac Newton, for example.

 

Support Independent Bookstores - Visit IndieBound.orgDream Big—Really Big (and Then Maybe Engineer Something)

Readers of Ashlee Vance’s Elon Musk & the Quest for a Fantastic Future will surely notice something that really makes Elon Musk stand out: his mission-driven ambition.

This guy dreams big.

Many people– including engineers and inventors–hope to make the world a better place; Musk wants to save humanity. This kind of high-impact calling can be a great motivator for future engineers and other innovators. Capitalize on the excitement of the Musk’s vision with one or more of these ideas:

Encourage Daydreaming!

  • Invite your students to take a cue from Musk and envision something that would be really important to the well-being of people around the world. Begin a discussion with a grand question: If you could invent anything to make the world a much better place for everyone, what would you invent?

 

  • Follow through with a brainstorming session around this question, encouraging students to think about ideas that might not seem realistic or possible right now. (If the class has already read the book, you can remind students that Musk’s ideas might not have seemed feasible at first, and, in fact, that lots of people have scoffed at his ideas.)

 

  • Keep a running dream-list posted in the classroom and return to it from time to time. Invite students to keep “Dream Books,” where they focus on one or two ideas (or more) and write and sketch about how the dream might become a reality through some technology.

 

  • You can expand on this idea by holding your own school version of the National Academy of Engineering’s “E4U” contest—minus the $25,000 grand prize– which (apparently) was last held in 2016. While the national contest is not open now, students can follow the contest rules to create 1-2 minute videos that aim to highlight a mega-engineering project related to one of their big dreams and, in the words of the contest guidelines, “expand the way people think about engineering and how it is involved in solving large-scale global challenges.” Check out winning entries, guidelines that you can use or adapt, and an explanatory (if outdated) video at the E4U contest site. Whether you run this as a contest or a showcase, this is a creative way to help students connect to Musk’s work and the importance of STEM in our world

Join Musk on His Mission (Sort Of)

For a more concrete experience, lead your students through engineering projects with connections to SpaceX rockets and Tesla’s electric cars, such as those featured in these resources from Design Squad Global:

Musk is all about the future. But there’s plenty of excitement in the past. Just check out the likes of Isaac Newton, whose experiences can add a bit of magic to how we think of early science and engineering.

Support Independent Bookstores - Visit IndieBound.orgExplore a Little Magic with Isaac Newton

From the outset of Isaac the Alchemist: Secrets of Isaac Newton, Reveal’d, author Mary Losure explains to readers that in Isaac Newton’s time, some of what we now understand through science, such as chemical reactions and optical effects,  seemed a lot like magic.

They still do.  Have fun with this idea and explore the magical effects of our everyday world!

 

  • Adapt additional resources to create inquiry-based, surprising, and delightfully magical lessons. (Notes: I named these activities to spice things up; you won’t see these activity names in the resources. Also, see the safety reminder, below.)

Spirit Writing?

Cast a Colorful Spell (magic trick begins at about the 7-minute mark)

Cast a Colorful Spell 2

Refraction Action: Disappearing Coin

Liquid Refraction Action 2: Liquid Invisibility Cloak!

Vanishing Glass (See Item 1 in the linked resource.)

 

  •  Finally, to continue the science-is-magical theme, and for a bit more fun and a creative literacy extension, you might have students write and perform scripts for a magic show, each student team building a story or act that uses one of the chemical reactions to create the “magic.”

As I find every month when I contribute to STEMTuesday, the books on the list inspire many more lesson ideas than space will allow. What inspires you? Leave a comment sharing new ideas or comments on what you see here!

*Safety Reminder: The magic/science activities are generally safe, but in the classroom, you should always be sure to follow the guidelines for safety and for modeling safe use of all chemicals. Check with your local science curriculum coordinator or the National Science Teachers Association Minimum Safety Practices and Regulations for Demonstrations, Experiments, and Workshops.

portrait of author Carolyn Cinami DeCristofanoSTEM Tuesday–In the Classroom contributor, author, and STEM education consultant Carolyn Cinami DeCristofano writes about science and technology/engineering for kids.  Running on Sunshine: How Does Solar Energy Work? –a book for early readers released this month–celebrates the innovative spirit and challenges behind engineering solar technologies, and received a starred review from Kirkus.

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