Posts Tagged craft

STEM Tuesday — Chemistry ROCKS! — In the Classroom

By on June 11, 2019   /   Cross-Curricular, STEM Tuesday  

 

Having majored in chemistry in college and then going on to teach the course a couple of times, I know how difficult this topic can be for students to understand. But really, chemistry is just the science of what matter is made up of and how it interacts with other types of matter. See? Not so hard at all. 🙂  I get it. Some students need to have more to help them become more comfortable with chemistry.

Here’s a list of things you can try:

Hands on Interaction:  I like to tell my students that the best way to understand chemistry is to think of it like cooking. Say you’re going to make a batch of chocolate chip cookies. You need the ingredients: the flour, sugar, butter, eggs, vanilla, and chocolate chips. Those are all different parts of matter. Then you mix them together with a certain amount of force by stirring or using a hand mixer. That gives you the cookie batter– a different kind of matter, but the chemical change hasn’t happened yet. Finally, you put the pan of cookie batter into the oven and voila you have cookies. Can’t you just smell the warm chocolate fresh out of the oven and imagine the first bite of gooey chocolate-y goodness?

 

 

During the whole process you are mixing and combining different kind of matter, but it isn’t until you apply heat that the chemical change takes place and you have cookies. Yum! This is a great way to get your students comfortable with chemistry.

 

Unfortunately, it’s not  possible to make cookies with your students in the classroom. Is there a substitute? Yes! Use these books. While it won’t get  you a warm chocolate chip cookie to eat in the end, you can do some pretty cool experiments with food.

Edible Science by Jodi Wheeler-Toppen (NGKids, 2015) is chock full of awesome food experiments! Many of these can be done in the classroom. Try the “Inflatable Marshmallow” on page 42. Kids learn about air pressure by watching a marshmallow expand and contract.

Another awesome one is watching how plants get water (page 9) by placing pieces of lettuce into bowls with different colored water (from food coloring). After a few hours students will see how the lettuce absorbed water through its leaves

My favorite one, though, is making slime (page 60). Your students will love it! This book is also great for homeschoolers since you can do a lot of the experiments in your very own kitchen. Happy experimenting!

 

Kathy Ceceri’s Edible Inventions: Cooking Hacks and Yummy Recipes You Can Build, Mix, and Grow (Maker Media, 2016)  also has some amazing experiments for kids to do with chemistry. She, however, goes a little more out-of-the box and discusses how kitchen gadgets can be used to make butter makers. She ventures into creating gelatin dots, and even agar noodles (don’t eat those!).

Finally, there is a whole discussion of 3D food printing and she gives you instructions on how to use your name-brand building blocks to make your own 3D food printer! Wow! This one is definitely for the more adventurous chemistry cook in your house. It will provide hours of fun.

After they perform each experiment have them analyze their outcome and discuss what happened. This is exactly what real scientists do. 

Questions could include:

  1. Did you get the outcome you wanted
  2. If not, why do you think this happened
  3. Could you repeat this experiment and get the same result? Why or why not?
  4. How is your result different from another team’s? Explain

By asking questions of your students you can help them to create a model to explain what happened. Perhaps they will end up changing the procedure or adding some requirements of their own, ie. use a hand mixer not a spoon to get a smoother consistency for the product.

 

 

2. Add some Fun Facts to your Experiments

Looking for a way to give your students a little more explanation of chemistry terms, and maybe a little history of the subject? Check out these titles, Explore Solids and Liquids! with 25 great experiments  by Kathleen M. Reilly (Nomad Press, 2014) and Explore Atoms and Molecules! with 25 great experiments by Janet Slingerland (Nomad Press, 2017)  have awesome experiments, but also contain explanations to describe the different parts of chemistry.

They have timelines the show the discovery of important scientific events, and also easy-to-understand definitions of words such as atom, molecule, solid, liquid, gas, states of matter, and mixtures and compounds.

These highly energetic texts and enthusiastic illustrations will grab your student’s attention and the experiments are all easy to do. Just follow the directions and you will have a great time in your classroom or homeschool environment.

After reading this book and doing some of the experiments, have students come up with their own examples of matter, molecules, and solids, liquids and gases. 

  1. Ask them to identify these different parts of matter in the things they see around the room or around their house
  2. Did they come up with something that can be both solid and liquid? How would they classify that?
  3. Discuss the types of conditions that might cause these substances to change from one to another.
  4. What types of evidence do they have to indicate the change

 

3.  Tie Chemistry to Literacy

If you have older students who are ready to learn more about chemistry, have them read The Disappearing Spoon by Sam Kean (Little, Brown BFYR, 2018).  This book gives a lively and interesting history of the scientists who discovered the different elements of the periodic table.

Discovering an element is not as easy or amazing as you might think. In fact, it can be downright dangerous to your health. Ask Marie Curie. Many of these stories are about scientists who defied all odds to come up with a new element or perhaps stumbles upon it accidentally. It is a compelling read for anyone who is interested in becoming a scientist as it gives a behind-the-scenes look at real-life challenges many of the scientists faced.

After reading this book, have your students break up into discussion groups.

  1. Each group can choose a scientist or element and come up with a way to present it to the rest of the class.
  2. Maybe they dress up as the scientist and have them talk about their challenges
  3. Infographics or posters can show their process
  4. Be sure to include the pros and cons of each element (some of them are quite dangerous to humans)
  5. Have them show the element as it is used today (hint: it’s not just a two-letter symbol on a chart)

This is a great way to promote discussion about the periodic table in a place other than the science classroom!

 

Whatever way you choose to introduce chemistry into your classroom or homeschool, remember one thing, HAVE FUN with IT! Students will get enthusiastic about a fun, interactive, presentation and who knows, you may just inspire a future generation of STEM/STEAM careers.

 

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Science ROCKS! And so do Jennifer Swanson’s books. She is the award-winning author of over 35 nonfiction books for kids. Jennifer Swanson’s love of science began when she started a science club in her garage at the age of 7. While no longer working from the garage, you can find Jennifer at her favorite place to explore the world around her. www.JenniferSwansonBooks.com

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STEM Tuesday — Epic Achievements and Fantastic Failures– Writing Tips and Resources

By on May 21, 2019   /   Common Core & NGSS, Cross-Curricular, Epic Achievements and Fantastic Failures, STEM Tuesday  

 

 

Fear of failure. It’s something I hear from my students all the time. They are afraid to get things wrong, mostly because it might mean points off on their quiz or test. While I can understand that (no one likes to get a low grade), but when they are afraid to fail in lab class, that’s a different thing. Students need to understand that not every experiment turns out “right”. Sometimes you can do everything correctly in the procedure, step by step, and still mess it up.

When I was in graduate school, I had a simple job. I had to make plates of agar for an experiment. To explain, agar is the gel that goes into the petrie dishes BEFORE you even do the experiment. Agar plates are used to grow microorganisms, like bacteria. In order to compare the growth of bacteria on each dish, the dishes must all be created at the same time, in the same manner.

 

 

It’s fairly easy to make (or so I thought). There are five basic steps:

  1. Pick a recipe (my boss gave me one)
  2. Gather the supplies — sterilized petrie dishes, powdered agar, sterilized water, yeast, and another powder
  3. Mix the ingredients according to the directions
  4. Sterilize the agar by heating it to turn it into a liquid
  5. Pour into the plates

Sounds simple, right? Not so fast. For some reason, I could not get the plates to look like the one above. Every time my plates were too cloudy and had air bubbles in them.

I spent 3 ENTIRE weekends trying to make the agar plates and failed EVERY TIME. It was so frustrating.

Finally, my advisor came in and watched me do two sets of new agar plates. What did she see? I was being very specific about how I followed the directions. BUT she noticed that in every process I was making the same mistake over and over. Once that was corrected, I was able to produce the proper plates.

Was she mad I took so long and wasted so much materials? NO. She said that what she loved about my process was that I was so careful to do the same thing over and over. That is a very excellent trait for a research scientist to have.

I ask you parents and teachers to share this story with your students. Everyone needs to understand that sometimes when we think we are failing we are actually excelling at something else!

Here are a few more examples of technology that wouldn’t exist unless a scientist or engineer failed.

“8 Successful Products that Only Exist Because of Failure”  by Sujan Patel

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Since our post today is also about Epic Achievements, I thought I would share a post from guest blogger Laura Perdew. She is helping us to celebrate International Biodiversity Day  on May 22nd!

How is this an Epic Achievement? For the last 19 years the United Nations has set aside one day to celebrate biodiversity in our world. Something that is extremely important for the survival of our planet. Celebrating biodiversity, and even more importantly making strides to save biodiversity on the planet, in our cities and towns, and even in our own backyard is definitely an achievement that we should all hope to accomplish. Here’s Laura:

 

Ever heard of a velvet worm? A tardigrade? A shoebill stork? These are just three of some 8 million species on Earth that come in all shapes and sizes. The amount and diversity of life on this planet is staggering. And unquestionably fascinating.

Biodiversity includes plants, animals, fungi, bacteria, and microorganisms. And it is everywhere, including in some pretty extreme places: near volcanoes, at the deepest parts of the ocean, in the sand, in hot springs and mud pots, in the ice, and even under the ice. And consider this – wherever you are at this moment you are in the company of hundreds or maybe even thousands of other species growing, squiggling, flying, reproducing, wriggling, feeding, and thriving.

What is often overlooked is the fact that ALL OF IT IS CONNECTED. Every species, no matter its size, has a role to play. While the connections between trees in tropical rainforests and polar bears are not immediately obvious, the connections are there. The earth is a perfectly balanced, wondrous system. That balance makes our planet strong. Yet also vulnerable.

We are living in a time when that balance is threatened by human activity. Today is a day to celebrate biodiversity, so I will not dwell on that. Instead, our job as stewards of the planet our children will inherit, is to help them see and understand that magic that is all around them. Jane Goodall said it best: “Only if we understand, will we care. Only if we care, will we help. Only if we help, shall all be saved.”

ACTIVITY
Celebrate (Bio)Diversity Museum
To get kids excited about biodiversity, challenge them to discover a species they didn’t know existed. With a little research, either with books or on the internet, kids should easily be able to find something new and interesting.

Once they have identified a new species, each student will create a species profile. How detailed the profile is can vary by grade level. The overall goal is to create a visual profile that can be set up as a museum display (and to inspire wonder about Earth’s biodiversity). This might include pictures, charts, maps, basic information, poems, fun facts, or other ideas.

This activity can easily be cross-curricular, integrating language arts, science, social studies, and even math, depending on the requirements you develop for the species profiles.

Once the profiles are complete put them on display and have a biodiversity museum day. Friends and family can also be invited. All students should wander through the “museum” to learn even more about biodiversity. To finish the activity, have students reflect on what they learned both through their own work and from fellow students. This can be done as a class discussion or in writing. And, of course, celebrate biodiversity!

Thanks, Laura. Very well said. Laura is the author of Biodiversity: Explore the Diversity of Life on Earth with Environmental Science Activities for Kids (Build It Yourself) (Nomad Press, 2019)

 

Have a great week, everyone, and don’t forget, as Carolyn DeCristofano said in last week’s STEM Tuesday post,”failing is just practicing for success!”

 

 

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Jennifer Swanson is the award-winning author of over 35 books for kids, mostly about science, technology, and engineering. She loves learning new things but still cannot make a plate of agar correctly the first time. But she keeps trying!  You can find her at www.JenniferSwansonBooks.com

 

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STEM Tuesday — Epic Achievements and Fantastic Failures– In the Classroom

By on May 14, 2019   /   Common Core & NGSS, Cross-Curricular, Epic Achievements and Fantastic Failures, STEM Tuesday  

This week explore the importance of bringing epic achievements and fantastic failures to your classroom. Let the stories of people persisting in the face of seemingly impossible odds inspire your students to consider how STEM might figure into their everyday lives and future careers. And remember, managing failures is part of the arc of success. Set-backs and disappointments help STEM professionals improve, invent, and innovate their way to their dreams.

Create a “Dream Big” Bulletin Board. Before introducing this month’s books to students, ask students to respond to these prompts:

  • Think about the technology around you—everything from paper plates to bandages to medicine to transportation systems and more. All of these things were figured out by people. Which technologies impress you the most? Why? What else can you think of that’s a big-deal achievement in science, technology, engineering, or math?
  • Scientists explore the unknown and try to describe and explain the world and universe around us. What’s the most amazing scientific discovery you know of? What big questions do you wonder about that science might answer someday?
  • What’s the most amazing discovery or invention you can imagine making?

After students complete index cards or journal entries in response to the selected prompt, give them time to exchange ideas about their “big dreams” with each other. Encourage them to think bigger and bigger as they talk. After several minutes, ask students to consider their answers as a group:

  • What common themes can you find across different achievements and dreams? (For example, several ideas might relate to discovering a cure for disease or inventing a way to travel quickly from place to place.)

Post student ideas on a “Dream Big” bulletin board and refer to it as a context that will help them connect to any of the tales of success or failure in the books from this month’s STEM Tuesday list. As students read the books, ask them to identify the “big dream” behind each success, and motivating the people in the stories to overcome failures along the way.

Is it Failure or Just Practice for Success? In many quarters, failure has a bad reputation. Sure, we all feel like celebrating when things go right, but it’s important to understand that if we are going to achieve anything — epic or everyday — we are likely to encounter bumps, mistakes, hiccups, set-backs, and mess-ups along the way. The better we can accept failures and learn from them, the more we will learn and achieve. You can help students explore this idea with one of these engineering design challenge “launchers,” which focus on the engineering design process and how it embodies a growth mindset. After students test their first design ideas, challenge them to improve the performance of their designs. Lead reflection on how students’ final (and usually improved) designs evolved from the designs’ initial shortcomings and set-back (failures). Be explicit that in many ways, failure is something to embrace—as a chance to learn and explore in new directions.

Support Independent Bookstores - Visit IndieBound.orgConnect students’ experiences with design failures with highlights from a TED Talk and an interview with Astro Teller. Teller, the “Captain of Moonshots” at X, a Google company featured in Google It: A History of Google, discusses his own view of success and failure, and the importance of committing to projects that may or may not succeed. Speaking of moonshots…

 

Support Independent Bookstores - Visit IndieBound.orgMap the Ups and Downs along the way to an epic achievement, such as figuring out how to achieve powered flight or landing people on the Moon. You’ll find these stories in Countdown, Rocket to the Moon, and Epic Fails The Wright Brothers: Nose-Diving into History. To map the vicissitudes of these or any other accomplishments, begin by drawing a horizontal timeline across a piece of paper near the middle. Label the line with each chapter, episode, or student-identified turning point. Ask students to make a mark above or below each label indicating the degree to which the episode seems like an “up” or “down” moment (when people were meeting Support Independent Bookstores - Visit IndieBound.orgwith success or failure/setback); then connect the dots. Students can also keep similar timelines in their journals representing their experience of projects in science, technology, engineering or math. Encourage them to focus on the relationship between achieving and navigating through—and learning from—failures.

 

Support Independent Bookstores - Visit IndieBound.org

Combined with hands-on activities and opportunities for student reflection, stories of STEM successes and failures can’t fail to inspire and engage students. How do you help students identify their own, personal “moonshots”? What do you do to foster risk-taking? Drop us a line in the comments suggestion below!

As a co-founding consultant at Blue Heron STEM Education and a partner in STEM Education Insights, LLC, STEM Tuesday contributor Carolyn DeCristofano, MEd, supports the development of high-quality, research-based STEM education resources that inspire students and teachers alike. An acclaimed author of STEM books for kids, including A Black Hole is NOT a Hole and Running on Sunshine: How Solar Energy Works, she enjoys bringing the joy of STEM, creativity, and writing to school groups.

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