What it is: Do you know about Stanford’s YouCubed? If you are a math teacher (and even if you aren’t) you need to know about this awesome resource! It is packed full of goodness for teachers and parents alike. Fantastic (and approachable) articles about brain science, mathematical thinking, and mindset. Outstanding ideas that you can use RIGHT NOW! Links to really wonderful math apps and games, videos and radio shows, tasks (also known as mathematical brain teasers), and visual mathematics resources. My favorite portion of YouCubed is the Week of iMath. There are 5 days of lessons, each one comes with a lesson plan, video, and list of materials needed.
How to integrate YouCubed into your classroom: There are SO many resources that can transform your classroom! I love the articles and research as references to send parents throughout the year. These are also great for reading with your older students who may assume that math is not their gig. The articles and research included show that math is for all of us, but our mindset may need a bit of a shift! What I love about the articles is the way they quickly dispel so many myths about maths, I guarantee you’ve heard all of this from parents over the years and now you have research to share to help them understand the truth about mathematical thinking and brain science.
The links to math games and apps is really helpful. You’ll find some old favorites, but likely be introduced to something new to use with your class. One of my very favorites listed is an app called Dragon Box…it is truly so brilliant for teaching students algebraic concepts and math thinking without any numbers or mathematical symbols at all!
The iMath section gives you a wonderful inspirational math lesson for each day of the week. These lessons go far beyond your typical math drill/skill/learn-a-new-formula. Instead, they are all about helping your students develop a growth mindset when it comes to math, and arming them with the necessary tools to think like a mathematician. Depth of learning! The approach in each lesson is playful and inquiry driven, it encourages risk taking and mistake making as they work with numbers, patterns, and relationships between concepts. I cannot say enough about this section of YouCubed! Each lesson is broken down into grade ranges so that no matter what age you teach, you can find the fit for your class.
Tips: This is an ideal site to start the year with, and then use as a reference all year long! You should also be sure to check out Jo Boaler’s books and articles. If you’ve ever felt under prepared/qualified to teach math, Jo will help you shift your own mindset and equip you to teach math like a master!
What it is:My Simple Show Video Creator lets students easily create professional level “explainer” videos. The finished product looks just like a Common Craft video, so cool! The step-by-step tool helps students think about storyline and the flow of explaining a concept.
How to integrate My Simple Show into the classroom:My Simple Show is a fantastic option for digital storytelling. Students begin by choosing to write their own script, or by uploading a Power Point presentation. Next, they can choose from one of many templates to start from, or alternately, start from scratch. The templates are an awesome option because they give kids an outline and break down the story telling/explaining process. For each step in the process, it guides students with a prompt and with some examples. My Simple Show auto-magically picks up words in the script and suggests pictures. Students can use the pre-selected images, choose an image from the My Simple Show library of images, or upload their own image or picture. In the final step, students add audio. This can be computer generated or students can record their own audio. The finished product is pretty impressive! Below is a video I made quickly today.
My Simple Show’s obvious use is for explanatory digital storytelling, but it would also be a great way for students to reflect on a field trip, tell a story, retell new learning (pssst. this is an awesome way to check for understanding!), or create their own “textbooks.”
Students can use My Simple Show to explain a historical event, introduce a biological process, introduce a physical law, summarize literature, summarize a biography, discuss pros and cons, explain a law, etc. Use My Simple Show to create whole class stories where each student contributes a portion of the explanation or story. This type of video can be made over a few weeks using classroom devices as a writing center. This would be a fun way to create an A to Z type book of learning, reflections by students after a unit, a 100 day video, fact vs. opinion video, a class video of poems, a phonics video, or a class video about a field trip that students took. Students can take pictures of science experiments and create a digital video detailing the experiment with text, images, and student voice reflections included. The finished product can be shared with parents and families easily through YouTube, Vimeo, or downloaded as a MP4 file.
For a back to school night activity, take a picture of each student to add to a class video and record students sharing an explanation of a school day. This same idea could be used in preparation for parent-teacher conferences. Students can create a video about their learning during the quarter/trimester, record thoughts about why they are proud of the work they did, and add reflections. These can be shared as a starting point for conferences, at the end of the conference, parents have a keepsake. My Simple Show could also be used for character education. Give the students a scenario or problem, and have them work out a step-by-step explanation or solution.
Because of the voice recording capabilities, My Simple Show, would be a great way for students to practice a foreign language. They can illustrate a word or phrase accompanied by the audio. Classes could work together to create a “living” digital glossary.
Be sure to give your students access to My Simple Show in your Maker Space, it is a great option for students to choose!
Tips: My Simple Show has video guides that lead students through each step of the process…I definitely recommend watching these at least once as a class or for the first round of creation!
What it is: Swift Playground is an awesome new app from Apple that teaches kids how to code in Swift. This free app for iPads uses games to teach kids Apple’s coding language used to create apps. Students can drag and drop code, and easily edit the code to customize it. The code can be instantly run so students can test out their code and see if it works. Best of all, in those instances that the code they put together doesn’t work, Swift Playground has debugging tools and hints built-in to help students rectify any problems. Students can also code with Swift from scratch making the app endlessly adaptable to any skill level.
How to integrate Swift Playground into your classroom:Swift Playground requires no previous coding knowledge, making it the perfect tool for learning how to code. For those students who have experience with coding, Swift Playground is robust enough for even seasoned programmers to bring new ideas to life. Swift Playground begins with a series of challenges to help students master the basics, students use code to help characters navigate a 3D world. When the challenges have been mastered, students can build and manipulate their own code to dream up new creations. Use Swift Playground to get your students thinking logically and solving problems from new perspectives. The skills built as students learn to code are the same skills that will help students in other disciplines like math and science. I love the way Swift Playground starts out by giving students a fun environment of challenges to learn the basics of Swift, but also allows them the flexibility of drag and drop code, and allowing students to edit and write their own code. Swift Playground even features a special keyboard that includes the most common coding characters so that students don’t have to hunt through keyboards to find what they are looking for. As students advance in their skills, they can use code templates that allow customization with code. Beyond what most learning platforms allow, students will be able to adjust multi-touch interactions, the accelerometer, and the gyroscope. These features and abilities are such an awesome tie-in to conversations about complex math and physics! When students are finished with their creation, they can share it with others using Messages, Mail, or Airdrop. Students can even post videos of their creation for others to see! For those who are really soaring, Swift Playground code can be exported to Xcode (where the pros create apps).
Many classrooms don’t yet have time built into the day that is dedicated to coding. But perhaps once a week you use coding in math class as applied math, or use Swift Playground as part of a 20% time offering in your classroom. If those are unavailable, consider participating in Hour of Code. Play with Swift Playground yourself and you’ll start recognizing tie-ins with other learning that your students are doing. When your students are proficient with coding in Swift Playground, they can start creating and reflecting on learning with the code they know. Swift Playground is a fantastic resource to have available as part of your Maker Space! Maybe they create a new game to help them remember vocabulary, or math facts. Perhaps they build a world based on a historical event. Once those basics are mastered the application possibilities are endless!
Tips: Everyone can code! This isn’t a skill that only a few should possess. Even the youngest students can use Swift Playground, I’m talking kindergarten can use this app! If you are new to the concept of code, check out this crash course from Apple.
What it is:Woot Math uses adaptive technology to personalize the math learning experience in new ways for 3rd-6th grade students. With a focus on fractions and decimals, Woot Math allows students many inroads to understanding. Flexible implementation options mean that Woot Math can be used in any classroom configuration whether it be 1:1 devices, shared devices, whole-class, or as intervention. The Woot Math system works on the web, iPads, or Chromebooks seamlessly…it truly is a great option for any classroom! It is super user-friendly, and gives teachers the ability to customize for each student in the class as a starting point. Woot Math is adaptive, as students use it, it gets “smart” and creates learning pathways based on the specific needs of the student. Beginning with foundational rational math concepts, Woot Math makes these necessary foundational skills accessible for all students. It is like having a personal tutor sitting beside them as they work through new learning. If a student doesn’t understand a problem, the program adapts to approach the learning in a new way. The illustration of concepts is brilliant! Woot Math gives students a solid understanding of fractions, laying the necessary ground work for algebra, geometry, physics, chemistry, and statistics. Sign up TODAY, Woot Math is totally free for the 2015-2016 school year!
How to integrate Woot Math into your classroom: To begin with Woot Math, decide how you will use it in your classroom. Do all of your students have access to a technology device? Do you have a bank of devices that they can rotate through? Do you have a projector/interactive whiteboard? If you are using Woot Math with limited technology access, beginning with the Interactive Problem Bank is best. Here you can quickly access thousands of hands-on fraction and decimal problems for students to work through together. You can project the problems on a whiteboard or use an interactive whiteboard. Problems can be selected by topic or standard and then by model type. Students can either work together in community solving problems, or as a center in a math rotation. If you have better access to technology, and students can work independently on a device, the Adaptive Practice is the place to start. Here you can print out student login cards, assign an initial topic, and the program will adaptively generate and assess thousands of interactive problems. This is also the place where you can track student progress and understanding through concepts and skills. The visual examples and leading through problems is fantastic, it is truly an engaging process for students to learn with! This is the best way (in my humble opinion) to use Woot Math, because it allows students to work in exactly the way they need to increase understanding and build a solid foundation of understanding. Be sure to go through Woot Math independently of your students to truly appreciate the interactive learning modules and visual representation of concepts…they are brilliant!
Tips: Be sure to sign up soon, take advantage of this timing when Woot Math is 100% free! There are some great teacher resources to download to help you as you implement Woot Math.
Hat Tip to @yourkidsteacher for sharing this awesome resource with me!
What it is: You guys, the World Education Games is back again, taking place around the world October 13-15, 2015! More than 5 million students from over 200 countries and territories will participate in the games for 2015. This is an exciting online challenge for students around the world. The competition begins tomorrow and continues through October 15. The World Education Games includes World Literacy Day, World Math Day (which has been around since the first World Education Games), and World Science Day. Just by participating through the answering of questions, students will be earning UNICEF points which are converted into money that goes directly toward supporting UNICEF education programs where class and school resources are desperately needed.
In World Literacy Day, students will enter the Spellodrome to compete with students from around the world. A sentence will be read aloud and it is the student’s job to spell the missing word.
For World Maths Day, students will enter Mathletics, to compete with students around the world. This is a place for students to practice and work on math fluency speed and accuracy.
World Science Day will bring students to the IntoScience dashboard where students will test their knowledge with a panel containing 16 question boxes, split into four categories of science. Each question is worth one, two or thee points based on the difficulty. In this game, you must answer faster than your opponents.
How to Integrate World Education Games into your classroom: I love the World Education Games for the fun way that it helps students (k-12) practice facts in math, spelling, and science knowledge. This makes drill/skill infinitely more fun. Students can practice with their own classmates and with those around the world. When I was still in the classroom, World Math Day was a time of year that students looked forward to. They ASKED for homework (can I keep playing at home?). True story. The kids loved finding out which country they would be paired with. It was always very motivating to see someone half way around the world playing the same game at the same time. My students worked hard to see if they could be paired with someone on every continent before the Games were over. Keep track of the countries that your students get matched with on a Google Map or on the printable maps offered on the World Education Games Website.
For at least one week, ditch the worksheets (or do it like we do at Anastasis and ditch them every day!) and practice math facts and spelling with fun games instead. This is a few days of fun, friendly competition for your students. The adjacent learning opportunities during the World Education Games is great (similar to what the Olympic games brings!). Geography, math, spelling, and science investigations are the obvious adjacent possible. This year, UNICEF is partnering in on the Games and the points that your students earn goes toward a very worthy cause, for every point your students earn, money is being donated to UNICEF for education. In addition to the drill/skill, your students can inquire into the Power of One (as our students at Anastasis Academy are doing), or can inquire into organizations that make a difference in the world (like UNICEF) and explore the social issues that these types of organizations are working to solve.
Tips: Using an Android or iPads in the classroom? World Games Day has Apps for that! Download the Mathletics app here for free!
What it is: I’m telling you, the edublog alliance I created in 2010 is like the gift that keeps on giving. Year after year I continue to be inspired, excited, and made to think by my edublog alliance PLN! These are my go to blogs before all others! Karen Ogen recently posted about a Virtual Escape room. It is so much fun, I had to share here as well on the off-chance you don’t already follow Karen’s blog (iTeach with Technology). Virtual Escape Room is reminiscent of the Clue Rooms or Escape Rooms that are popping up all over the US (I assume they are happening overseas, can anyone confirm that?). These real-life rooms are not only fun, they are a great way for students to think critically and problem solve together. The premies of the rooms is this: You find yourself locked in a room and, using the clues in the room, must find your way out. There are props, puzzles, and clues all over the room and a time limit. The Arizona Science Collaborative has created a virtual version of the escape room (cue cheers from me!). While a real-life escape room would be amazing, often this is not a realistic school field-trip because of funding, class size, and transportation. Enter the virtual version!
How to use Virtual Escape Room in your classroom: The Virtual Escape Room is a great way for your students to work in small groups to solve a mystery together using critical thinking and problem solving. Students must work together to find their way out of a dark virtual room using the clues in the room and solving some puzzles. Students learn how to work together in teams, communicate effectively, go through the scientific method, and solve problems creatively. Put students together in groups of 3-4 students to solve these problems on classroom computers, using an interactive whiteboard as a center, or on individual devices. Before completing the room, discuss what makes a good team member. How can we best solve problems together quickly? Students can go through the room together. Find out which team can get through the virtual challenge the most quickly. Follow up with discussion about what clues they used, how the students worked together as a team, and what things slowed them down. How was the scientific method used?
Tips: If you aren’t familiar with Breakout/Escape rooms, check out http://www.breakoutedu.com to find out how other teachers are creating their own! The virtual room could be a great introduction to a larger room. Even better, introduce your students to this idea using the virtual room, and ask them to create their own escape room challenge (in-real-life) for each other!
What it is:123D Design is a free super powerful, but simple to use, 3D creation and editing tool. As if that wasn’t great enough, it also supports many new 3D printers! The 3D creation tool is available for PC, Mac, and iPad download ensuring that no matter what devices you have at your disposal, you can take advantage of this awesome tool. The 123D app is incredibly intuitive, within just a few minutes, you can be creating like a pro (really!). Not feeling like a pro? There is also a quick start guide and a library of video tutorials that will explain how the different tools within the app work. The app has lots of 3D designs to start with that can be altered, but it also gives students complete creative license to create all on their own. So cool!
How to integrate 123D Design into your classroom:123D Design is a fantastic tool that brings the principles of geometry to life while giving students an outlet for creative design and invention. The app is easy enough to use that even young primary students can use it successfully to create.
I introduced this app to some of our students who have been learning the basics about coordinate planes. They quickly were able to identify the coordinate planes and were able to understand x, y, and z! This is the type of creation tool that helps students understand the application possibilities of the math they are learning (math in context, what a novel idea!)
At Anastasis, we’ve been playing with the iPad version of 123D Design. In the app version, students begin by choosing a basic shape and then can edit it to be exactly what they want it to be. They can easily connect shapes to make really detailed creations. Example projects help them to play with the tools in the app until they understand and can start from scratch on their own. When students are finished, they save it to “My Projects” which is accessible in the 123D Design web and desktop app. If you are lucky enough to have access to a 3D printer, the kids can even print out their creations!
This is a great addition to any maker space/prototype lab/design thinking routine. Don’t have any of that fanciness at your school? No problem! Adding this app to your classroom gives students an outlet to do some design thinking and work through ideas and inventions right in your classroom. Instant prototype lab!
Our students often engage in design thinking as they engage inquiry. Right now one of our 4th grade students is inquiring into how much water is wasted in our daily activities. One area of waste is when we brush our teeth. This student is designing and creating a toothbrush with the water built-in so that the faucet doesn’t have to be turned on to wet the toothbrush. She’s been experimenting to find out how much waste there is in this activity in our prototype lab. Next, she’ll begin to bring her designs to life with 123D Design and we’re hopeful that she’ll be able to print out a prototype on our Printrbot (still experimenting with how to do that!).
Tips: Sign up to become a member of Autodesk 123D. This gives you access to 3D models, tutorials, 10 free premium models each month, ability to send the 3D model directly to your own 3D printer (or if you don’t have one, to a printing service), unlimited cloud storage of your student designs, and access to the Autodesk forums.
In November, I wrote a post about the book/PBS documentary series “How We Got to Now” by Steven Johnson. If you haven’t read this book or watched the series, it is a must! Truly, this is one of those books that has stayed with me. I’m not the only one. Students from 1st-8th grade at Anastasis have become fascinated with Steven Johnson’s journey through the six innovations that made the modern world. The way that Steven weaves the story is remarkable. It reminds us just how interconnected the world is and that innovation doesn’t happen in isolation, but as a result of connection. This book, perhaps more than any we’ve read as a school, has reminded us of the beauty of inquiry. What happens when hunches collide and people pursue those hunches.
I love the way that Johnson explores innovation through these 6 lenses. Instead of offering up the typical “heroes” of invention, Johnson introduces students to concepts that span hundreds of years of invention and many of the unsung heroes. The six innovations include: glass, time, clean, light, sound, and cold. I’m telling you, the way that Johnson helps kids see connections in innovation and invention is brilliant! So much the way that inquiry works.
In my first post, I wrote about how our students had imagined these innovations as a series of dominoes. Each new discovery leads to the next. Much like dominoes creating a chain reaction. The students have spent the last months exploring each of the 6 innovations in-depth. In addition to the PBS series, they’ve spent time really digging into each innovation that led to the next.
@dweissmo really took on this project with her students. The process wasn’t without it’s frustrations (for teacher and students) but the end result was absolutely incredible! Honestly, I couldn’t have imagined a better outcome than what I saw today when Deb’s class unveiled their mini museum. Before I get to that, let me lead you through the process of how this project came together.
First, Deb’s class watched each of the How We Got to Now @PBS documentary series. The students took notes (in Evernote, through sketchnotes, etc.) about each innovation. The class would also debrief after each video and talk about what surprised them, encouraged them about the invention process, the key players, and the timeline. @dweissmo is a master at leading these conversations. Her enthusiasm is infectious and the students caught her passion. Steven Johnson also has a way of presenting the unfolding of each innovation in a way that hooks your interests and keeps you marveling and making connections long after the video is over. After watching the documentary series, Deb put each of the six innovations up on her wall and asked students to write their names on a sticky note and choose which innovation that they were most excited to learn more about.
Students chose which innovation they wanted to do a more in-depth study of and would, ultimately, create dominoes based on.
For the dominoes, we snagged a bunch of the flat-rate shipping boxes from USPS. The students painted them different colors according to the innovation they were studying (a different color for each innovation). Next they took all of their notes and research and started creating their “dominoes” with information about that innovation. They quickly realized that there was SO much to say about each innovation, that it didn’t fit on their domino. The kids decided to create websites where they could add a little more in-depth information about the innovation. To make it easier for the museum audience, they connected the websites and webpages they built to QR codes for each domino. You guys, these are 4th, 5th, and 6th grade students!!! I’m so proud of them I could burst. They built their websites using Wix (a wonderful and amazing WYSIWYG editor). The QR codes were built using Google’s URL shortener which also happens to include a QR code. On the back of each domino, the kids affixed their QR codes. Some of the kids also created videos that were included on their website. (If you are interested in seeing these websites, all are linked here.) All of this was done over the course of a few months as the kids continued on their inquiry journey of How We Express Ourselves, and How the World Works.
Then came the full moon. Any teacher will tell you that the full moon does something to children. Perfectly wonderful, reasonable children are suddenly unrecognizable and cannot make a decision or work together to save their lives. This is a real thing! This full moon coincided with class decisions about how to set up their museum. And much chaos ensued. Despite the full moon, the kids were able to come to a decision about how they would set up their museum for the rest of Team Anastasis and families to enjoy. For all of the trouble they had coming to a decision, they did a remarkable job in the end! They created a sort of maze/labyrinth to walk through with dominoes along the journey. They decided to organize the dominoes not by innovation, but instead as a timeline so that you could see the interconnectedness of innovation. They had a station set up with clips from the How We Got to Now PBS series, a station where kids/parents could download a QR code scanner and learn how to use it before going through the museum, the actual domino mini-museum, and a place to reflect on the museum afterward. It was incredible!!
What was truly inspiring was watching the other classes (and parents) journey through the museum. Kids of all ages were SO engaged and impressed with what Team Weissman had put on. They spent time sitting at each domino and learning more about the innovations. They asked questions. They told Team Weissman what a neat website they had built. They connected with each other and learned together. Seriously, I couldn’t have dreamed up a better scenario. As the 1st-3rd grade class was leaving, they stopped and asked some of Team Weissman, “could you show us how to do QR codes and websites for our Body Tracings?” This is what learning looks like!
After all their hard work, the kids sat down and reflected on what could have gone better. What they would like to do differently for their next museum. They congratulated each other for a job well done. They talked about how hard the project felt at times and how very proud of themselves they were when they persevered through the hard parts. They made plans for the next opportunity to share it.
And now for our next trick, Team Weissman is creating their own inventions…How We Get to Next! These are so brilliant, I can’t wait to share them!
If you are joining us for the 5sigma Education Conference (and I hope you are!!), you will get a first hand look at the How We Got to Now mini domino museum and hear from the students who created it.
Today Apple announced that it will be joining code.org’s “Hour of Code” movement by hosting a free one-hour introduction to the basics of computer programming at Apple stores on December 11. During Computer Science Education week (December 8-14th) they will be hosting other workshops.
As a part of the Computer Science Education week, Apple will be hosting designers and engineers in select cities around the world. Pretty awesome! Contact your local Apple store to find out exact details of what your store has planned for the week.
Students at Anastasis Academy have started into an inquiry block about “How We Express Ourselves;” Hour of Code is coming perfectly timed as students can learn about how people express themselves through code.
You (the teacher) don’t have to be an expert at coding to introduce your students to it. In fact, it is kind of fun if you are learning and discovering coding together…definitely a bonding experience! Truly, please don’t stay away from spending at least an hour during the Hour of Code just because you don’t feel like you know anything. Explore together and let your students get excited about coding and about teaching you something new as you go. The resources Apple has listed are a fantastic way to get started. Join the Hour of Code yourself for additional information and support here.
I love that coding can hit every level of Bloom’s Taxonomy. It obviously allows students the opportunity to create something digital, but it also causes them to apply concepts/skills/math, analyze and evaluate code and what it is used for, and can help build knowledge and understanding in code and in a variety of subjects that the code is related to. Pretty great when that happens!
Want to continue your own learning about learning? Join us for the 5-Sigma Edu Conference. There is even a session on coding in the curriculum! It is going to be awesome and as an added benefit, you get to see how classes at Anastasis Academy run. Can’t wait to meet you there!
At Anastasis Academy, we are in the middle of the inquiry block “Where We Are in Place and Time.” During this block our students are exploring orientation in place and time, personal histories, explorations and migrations of humankind, and the relationships between the interconnectedness of individuals and civilizations from local and global perspectives. Serendipitously, Steven Johnson’s new book “How We Got to Now” just came out along with a PBS documentary. The timing could not have been better!! Steven looks at 6 innovations that made the modern world. In his telling about these 6 innovations, he demonstrates the inquiry approach in really brilliant ways. The interdisciplinary nature of this series is fantastic! I’ve been reading “How We Got to Now” (I highly recommend it!) and the students have been watching the new PBS documentary series by the same name as part of the inquiry unit. In addition to the book and documentary series, PBS has a brilliant How We Got to Now website for the classroom!
What it is:How We Got to Now with Steven Johnson is a website from PBS. The resources on the site are meant to support the documentary series (or book) and recommended for 6th-12th grade. At Anastasis, we are using it with students as young as 3rd grade and they are all getting something out of it and loving the connections of history and these innovations.
How to use How We Got to Now in the classroom: I love the way that Johnson explores innovation through these 6 lenses. Instead of offering up the typical “heroes” of invention, Johnson introduces students to concepts that span hundreds of years of invention and many of the unsung heroes. The six innovations include: glass, time, clean, light, sound, and cold. I’m telling you, the way that Johnson helps kids see connections in innovation and invention is brilliant! So much the way that inquiry works. 🙂
The How We Got to Now site has a great “Big Ideas” section that leads students to dig deeper into the six innovations and has provocations for students to continue making connections, learning, asking questions, and even coming up with their own innovations.
Students can explore and discuss how change happens and think about how we get to “next.”
As I mentioned, our students at Anastasis are really loving this block. They are enjoying exploring Where We Are in Place and Time with the help of Steven Johnson and through the lens of these six innovations. It has led to a lot of additional lines of inquiry and has also prompted our students to create their own innovations and inventions for the “next.”
As I was reading “How We Got to Now,” I couldn’t help but imagine a set of dominoes. Each innovation connects to something prior that sets off a chain reaction like the domino effect. I suggested to our classes that the students choose one of the six innovations to illustrate this way. The students will create a mini museum for our families to go through that is full of large cardboard dominoes with the inventions and catalysts of the chain reaction. The last domino will be their invention. I’m excited to see this come together!
Are you interested in learning more about the inquiry model we use at Anastasis Academy? Join our conference in February! Early bird registration now available.
I introduced this app to some of our students who have been learning the basics about coordinate planes. They quickly were able to identify the coordinate planes and were able to understand x, y, and z! This is the type of creation tool that helps students understand the application possibilities of the math they are learning (math in context, what a novel idea!)
