Short Answer- Build better k12 writers through social, engaging writing activities

Short Answer

I love technology built by teachers—it’s just different. You can feel the truth and passion behind it. It has features that you know were intentionally considered by someone who has been in the classroom. Short Answer is a fantastic writing tool that was obviously built by teachers solving real problems for real students. The best! With so many tech companies racing to put AI into classrooms in ways that don’t center learners, it’s nice to see companies like Short Answer who are starting with students. (Big congratulations to the Short Answer team, who was just named as a YASS Prize semi-finalist!)

What it is: Short Answer is a k-12 formative assessment and writing instruction tool that capitalizes on the learning potential of adaptive comparative judgment. It makes writing feedback more social, engaging, and effective for students. Watch the video above to see exactly how it works! With Short Answer, teachers can monitor written student responses and lead discussions to create a shared understanding. The tool encourages students to be central to constructing and participating in the learning process through discussion and debate of peer-constructed responses. Every student gets immediate, actional feedback through comments and class discussion. Students become active participators and evaluators of learning by giving feedback to others. I love the way that reflection is built right into Short Classroom…I’m a big believer that the bulk of learning actually happens in the reflection.

How to Use Short Answer in the Classroom: Short Answer makes it easy to get started as a teacher. You can quickly sign up for their Basics package, which is free and includes unlimited question launches and the All-In, Pair-It, and Battle Royale activities. The Basics package has some limits on how many questions can be saved, how many feedback criteria can be added, and there is no open feedback option for students. However, the Basics is the perfect way to dip your toe in and start using Short Answer in your classroom. The other packages are SUPER reasonably priced for what this tool adds to your writing classroom.

Short Answer has done a phenomenal job of creating interactive product walk-throughs to help you start using it effectively with your class immediately (again, clearly designed by a teacher!). There are also phenomenal standards-aligned subject guides to think about how Short Answer might be used in your classroom or a specific area of study. They’ve thought about it’s use in algebra, biology, business, calculus, careers, chemistry, computer science, earth science, economics, English, ethics, FCS, foreign language, geometry, neuroscience, physics, pre-algebra, psychology, SEL, social studies, statistics, trigonometry, US history, world history, and, of course, writing. No matter what subject matter you are teaching, Short Answer can be used to enhance and involve students in more nuanced and impactful writing activities. My favorite use is for inquiry-based learning since that is how we approach all learning at Anastasis. To see Short Answer in an inquiry-based setting, see the video above.

I love how this tool truly puts the learner in the center of the writing classroom by giving them authentic writing tasks, authentic audience and feedback, and competency-based instruction. It is brilliant. I know that a lot of teachers are feeling concerned about the ways that AI is impacting the writing classroom specifically. Short Answer is a tool that encourages authentic writing and feedback, which is made better because of its social aspect.

Tips: Short Answer has an incredible resource library for teachers. Don’t miss the classroom posters, which help promote a healthy culture of feedback between students.

How We Express Ourselves: Making a Museum in a Box

In the last eight years, my posting habits have become pretty sparse, to say the least. Starting and running a school…it’s a lot. It keeps me busy and thoroughly exhausted. I miss it. I miss the cadence of posting regularly and interacting with my education friends virtually. I miss swapping ideas and being thoroughly steeped in what is happening in ed tech.

Not being in the classroom impacts this as well. When I was in the classroom, my posts had an immediate purpose; they were things that I was doing or dreaming of doing, with my students the next day.

As I was considering the best way to jump back into blogging, I couldn’t see going back to the way I’ve posted in the past. It’s not that there was anything wrong with the way I posted, but it isn’t where I am today. It doesn’t feel as natural and genuine. I also am unwilling to retire iLearn Technology all together. For one, I still come back here regularly to find a resource that I used with students to make recommendations to teachers. Secondly, I still have so much to share! It just may look a little different than it has in the past.

For all of my education friends who have been with me since 2007, I can’t tell you how enormously grateful I am for all of you. You have shaped me as an educator and a human more than you could possibly know. For those who have joined somewhere along my journey, I’m grateful for you as well! I hope that you’ll continue to find reasons to come to iLearn Technology.

These days, rather than merely sharing a technology tool that I’ve found useful, I want to do so within a broader context. At Anastasis, we are a school powered by questions. We love the way that questions open opportunities for exploration, discovery, and new connections within learning. Within our inquiry blocks, we use technology as a tool that helps us dive deeper, capture our learning, think critically, and make connections. My intent is to share our learning through the inquiry, introduce you to new (and old) technology tools that have supported our inquiry, and hopefully inspire you to use technology in new ways.

This will likely lead to longer posts that are packed full of ideas and links, the posts won’t be daily as they were for so many years, but (hopefully) they will be rich. I’d love your thoughts and input as I try out this new format! Thank you for sticking with me even as my posts have come to a crawl. 🙂

How We Express Ourselves: Museum in a Box

At Anastasis, every 5-6 weeks, we begin our exploration into a new inquiry block. These blocks begin over the summer when I dream and put together a new lens to view the inquiry block through for our primary, intermediate, and jr. high classes. Not to get too in the weeds about that process, but essentially I’m looking at Next Generation Science standards, Colorado Social Studies Standards, and Common Core as I build each block.

Over the last five weeks, students have been working on a block called: “How We Express Ourselves.” Based on the IB’s PYP, this is “an inquiry into the ways in which we discover and express ideas, feelings, nature, culture, beliefs and values; the ways in which we reflect on, extend, and enjoy our creativity; our appreciation for the aesthetic.” Using this as my base, the lens for our primary students became: Art can help us understand other cultures, histories, celebrations, rituals, and spiritual beliefs.

Students would explore this inquiry prompt through the following questions: What are artifacts? How does art help express and reflect culture? How do cultures express themselves through story? How does art help communicate and reflect the history and technology of the time? How is art used in celebrations? How has this changed throughout history? How do fossils tell us a story of the past? How do artifacts tell an account of the past? How has art been used throughout history to help us understand the values, understanding of the world, and spiritual beliefs? How do archeologists work? How does a museum curator work?

The nature of the inquiry is that each one of these questions grows legs and pretty soon we are delving deep into rich learning and exploration!

We began our inquiry block with a provocation; in this case, we took our students to explore artifacts at the Denver Art Museum. Students also examined artifacts using Google Arts and Culture online. During these trips, the learner’s job was to notice and wonder. What did they notice about the artifacts they were exploring? What did it make them wonder? This led to wonderful classroom discussions and further investigation of archeology and curators.

The primary students continued their exploration with the following some videos about how archeologists work and how museums curate.

Scishow for Kids

NatGeo Kids Archeology

iLearn Technology: Museum in a Box

I had stumbled across this Museum in a Box site as I was pulling together some resources for teachers, and my first thought was: we should make our own Museum in a Box collections with a central “hub” where the students could share their learning! I immediately showed the teachers this site, convincing them that we could figure out how to re-create the central hub.

iLearn Technology: MetKids Artifacts

We went to the local cigar store to collect some suitable “museum boxes” for each student with an extra box that would become the hub. The students went to work researching artifacts that they would like to create. They used the METKids website as well as the DK find out! site to conduct their research. The METKids was a great place to begin because even our early-readers could conduct research independently with this well-designed site. They learned about basic notetaking and made decisions about which items they would like to include in their own collections. Next, they set to work creating their artifacts out of clay, paper, fabric, paint, and glue. They used their artifacts to measure and develop dividers for their boxes.

iLearn Technology: Voice Recorder app

Each student made an audio recording with a free app called Voice Recorder (ios) saved as an MP3 file.

While the students were busy at work, I was too. I wanted to help create a hub so that the students could place their artifact on our main box and have it trigger the kids sound file. To do this, I used a Raspberry Pi, a cheap Target dollar-spot speaker, an RFID reader, and RFID stickers. My Raspberry Pi coding skills are severely limited, but I knew that it was possible to connect an RFID reader to the Raspberry Pi and have it trigger a saved audio file. Internet to the rescue! After a quick search, I found an Instructables with pictures to help me out! Following the directions, I connected the pins from the Pi to the RFID reader and installed a power button and an LED light so that I could see when it was powered on. I deconstructed and connected the cheap speaker. My husband, eager for a reason to use his CNC machine, designed the top of the box so that the speaker could sit inside the box and allow for the sound to come out (the honeycomb design you see in the pictures). To make it extra fancy, he also carved our school logo out of the top of the cigar box.

Teachers sent me the kid’s audio files, and I uploaded the MP3 files as individual folders on the Pi and linked each file to an RFID sticker. When the RFID sticker gets passed over the RFID reader, it plays the associated audio file!

Sample of the audio file.

Now for the most fun: teaching the kids how all of the “guts” work and showing them how the stickers cause their audio files to play! They were suitably impressed by this feat! The kids placed the stickers on the bottom of the corresponding artifact, and we had our very own museums curated with their voice walking each visitor through the collection.

The kids learned so much in this block! The obvious: archeology, curation, artifacts, the technology behind our boxes. The less obvious: research and note-taking, reading with expression, measurement, making decisions about the resources needed to create their own artifacts, reasoning with evidence, building explanations, making interpretations, making connections, observing closely, considering different viewpoints, and a hundred other “soft skills” that occur naturally in the inquiry process.


GeoGuessr- Build critical thinking skills with this map-based game

GeoGuessr map game that builds critical thinking skills

What it is: GeoGuessr is a fun map-based game where students get virtually “dropped” somewhere in the world, and must explore the landscape around them through Google Street View to determine where in the world they are. When they’ve determined where in the world they are, they click on the world map to make a guess. Students will be shown the actual location they are, as well as how far off they were from the correct location.

How to integrate GeoGuessr into the classroom: GeoGuessr is a fun way to challenge your students to use context clues, think critically, ask questions, and learn geography. It’s also a great way to help them explore the world from your classroom! I think GeoGuessr is best as a small group or class activity where students can work collaboratively to solve the challenge together. Begin by exploring on a projector-connected computer or classroom devices. Ask students what they notice about where they’ve been dropped. What does the landscape look like? What natural features do they notice? What kind of climate would they guess they are in? What do the street signs look like? Do they see any clues that might help them? Next, invite students to ask questions (they don’t need any answers…sometimes the questioning process helps us ask better questions or notice new things!). Narrow down the part of the world students think they are in and make a guess. How close were they (this could lead to a mini-lesson on distance conversions)? GeoGuessr would make a great thinking prompt to start any class with. This exercise could take 10-15 minutes and jump-start your students in critical thinking and problem-solving. It’s a great way to model noticing, inquiry, using context clues, and thinking critically as they solve problems. All skills that are useful for any kind of learning!

GeoGuessr would also make a fun morning pages writing prompt. Students must write a story, poem, descriptive writing, etc. about where they’ve been dropped.

Tips: Want to create your own GeoGuessr challenges? You could create a challenge that reinforces any theme or topic. Sign up for a GeoGuessr Pro account.

Class Pad: Free digital scratch paper for the math classroom

ClassPad free digital scratch paper for the math classroom

What it is: ClassPad is free online software that lets you digitize your math scratch paper. You can create original teaching materials for the math classroom quickly and easily. With ClassPad, you can quickly add mathematical formulas, graphs, spreadsheets, and geometry sheets to share with your students (and other teachers). ClassPad can be accessed from tablets and computers. On touch devices, you can write calculations and graphics by hand, just like on actual paper. Students can access your materials through a unique URL.

How to integrate ClassPad into your classroom: ClassPad is a fantastic tool for the mathematics and science classroom. It makes it easy for you and your students to create original materials. Whether your students need extra practice, you want to make your math materials more hands-on and relevant for your students, or your students are creating proofs, ClassPad is an excellent addition to your classroom.

ClassPad could also be helpful for your math students who struggle to get ideas out through paper/pencil work. The ability to use a tablet or computer may help those students with dysgraphia excel in the math classroom.

As a teacher, you can use ClassPad to create learning material for your students. However, my favorite use would be for students to explore the world as a mathematician and utilize ClassPad to help them express themselves mathematically. I think it would be exciting to pose an inquiry question or word problem for students and allow them to come up with a proof addressing the problem. Because students can share work with a unique URL, each student could submit their work for the class to review. Likely there would be multiple ways to think through the inquiry. This would be a great way to talk perspective, different approaches to problems, and how we solve problems in life. This would also give the teacher additional insight into how students are approaching and thinking through problems. Rather than simply looking for a right/wrong answer, this could provide the space to talk mathematics with students.

Tips: There are three different ClassPad plans to choose from. The free Guest account gives you the ability to utilize the calculation, graph, statistics, and geometry options. The Basic account for a registered user offers everything the Guest account offers with the ability to save up to 999 papers, share papers, search papers, add favorites, and save your browsing history. The Plus account requires an annual subscription (they are currently offering a free trial). The Plus account gives you all of the features of the first two plans plus the ability to save unlimited papers and comes with additional features for computer algebra, advanced statistics, and handwriting recognition.

SAM Labs blocks put students in charge of creative learning

SAM Labs Alpha Kit empowering kids to be creative in learning

What it is: Recently, the good people at SAM Labs sent me an Alpha Kit to play with and review. You guys, this is such a cool product! I love that as soon as students open it up, it puts them in charge of the learning. Best of all, it encourages the learning to happen through playful trial and error. Each SAM Labs Kit comes with clever little blocks that each does something specific (think switches, light sensors, temperature sensors, DC motors, etc.). These little blocks interact with the SAM Labs app and empower students to become the inventors of great ideas. Through these 17 blocks (the Alpha Kit comes with 4 of the 17 blocks), students get a front row learning experience to delve into programming, logic, and analytical skills while they express themselves creatively and become problem solvers. The uses of the blocks are seriously endless, paired with the app they can do anything from composing music, to creating a remote controlled car, to exploring temperature, to auto-tweeting or post to Facebook. You can play with these little blocks all day long and keep coming up with new combinations of things to do with them (in fact, I did!). I’m imagining all of the new directions SAM Labs could take our inquiry blocks this year!

How to integrate SAM Labs into the classroom: SAM Labs boasts itself as a STEAM (Science, Technology, Engineering, Art, and Math) tool. And it is. But SAM blocks are so flexible, that I think that they reach beyond these few subjects. When I look at the blocks, I see endless inquiry possibilities. Yes, students will learn programming basics, how motors and light sensors work, how to use logic to build if/then type scenarios. But students will see more possibilities with these open-ended blocks. SAM Labs has a great collection of lesson plans to get you and your students started if you like, but like Legos, I like to see what the students come up with BEFORE they get the prescriptive input from the adults. They will come up with things we wouldn’t have dreamed of and then we can let the iteration begin! Speaking of Legos, the SAM Labs components snap together seamlessly with Legos. I’m telling you, the sky is the limit with these! I adore tools that are flexible for any classroom, capitalize on student ingenuity and imagination, and give students the power to dream big. Using the SAM Labs blocks students can explore light and temperature, compose songs, experiment with resistance and friction, monitor plant life, create “smart” devices, test out properties of matter, begin to understand programming and patterns and learn about circuits.

I think Anastasis students are going to find some pretty unique ways to hack these little blocks into something that hasn’t yet been imagined for an inquiry project or experiment!

Tips: The Alpha Kit that SAM Labs sent me to play with is impressive even with a limited number of bricks. For a classroom setting, I’ll definitely be purchasing more. These will be a hot commodity for student creations…no need to cause unnecessary arguments over whose turn it is to use them! (Top tip: we solve those kinds of arguments with dance-offs!)

 

Have you played with the SAM Labs blocks? What have your students dreamed up with them?

Flipgrid for every classroom

Flipgrid for every classroom

What it is: Flipgrid is a video discussion platform for your classroom that lets you engage and capture learning in new and awesome ways. It’s simple (and free) to get started, just create a grid and add a topic to spark some discussion. Students can respond with short video responses using any browser, Chromebook, iPad, tablet, or mobile device. All the students can view the videos and engage. You can moderate videos, provide custom feedback, and set the privacy rules. The free version of Flipgrid lets you create one grid (this is your classroom or community), unlimited student videos (up to 90seconds), simple individual student feedback, and private video sharing with families.

You are the Flipgrid Topic Designer (your students could be as well!). Embed YouTube or Vimeo videos, upload images for your students to discuss, feature a file or a weblink.

How to integrate Flipgrid into your classroom: Flipgrid is a great way to get your students reflecting on learning, collaborating, and providing peer feedback. Students can create and share a book talk or chapter reflection, discuss current events, delve into a topic, engage in an online Socratic seminar around a given topic, collaborate, verbalize their learning process, etc. Flipgrid works in any classroom, with any age student, and within any subject. The sky (and your collective imaginations) are really the limit!

Flipgrid is a fantastic add to the language arts classroom where students can: share a word of the week, complete a video chapter summary, create a character monologue, explore themes and ideas in a text, complete a book review/book talk, ask questions of the author, come up with alternative endings, make text predictions, dramatic readings, practice reading fluency/voice/tone/inflection, reflect or wonder during reading, make connections to other learning, explore metaphor, practice and reflect on presentation skills, collaborative Flipgridding with another classroom, explore perspective, or conduct interviews.

In the math classroom students can: talk through their process or problem solving approach, share examples of found math in context, number talks, weekly math challenges, find the mistake responses, student created math tutorials of new concepts they are learning, stump the class challenges, demonstrations with manipulatives, solving or creating their own “what doesn’t belong” challenges, or solutions to math challenges with multiple outcomes.

In the science classroom, students can: share each step of an experiment through the scientific method with each step being a new video, document dissection, reflect on failures, show the process of building or designing, make predictions, document process, demonstrate, post wonderings, or class challenges.

In the history/social studies classroom students can: do living history exercises where they take on the persona of a historical character, reflect on an era or connective topic like: “what are contributing factors to revolutions,” conduct interviews, explore perspectives, reflect on and discuss current events, create a video timeline of events, connect past events to current events, explore historical trends, connect with other classrooms from around the world, explore place and environment, teach classmates about a historical theme that they geek out on, explore social justice issues, or give a voice to those who historically haven’t had one.

Flipgrid makes for an excellent addition to the portfolio. I love the way it encourages collective intelligence and highlights the social nature of learning. Flipgrid is also a great way to build a growth mindset and self-assessment. As students complete any project or assignment, they could add their reflection on the learning as well as where they think they are currently in their learning journey (we use the progression of Novice, Apprentice, Practitioner, Scholar, Change Maker).

At the end of every year at Anastasis, we host an event we call “Storyline.” Flipgrid would be an excellent addition to that end of year celebration and review of the year. Students could use Flipgrid to document learning progress throughout the year and use it as a way to review their growth.

Tips: Flipgrid integrates seamlessly with other education products you are already using including WordPress, Canvas, Teams, Google Classroom, One Note, Edmodo, Schoolology, Blackboard, Sway, Brightspace, and Power school. The paid versions include tons of added features and are worth exploring more if you find yourself using Flipgrid regularly.

 

How do you use Flipgrid in your classroom?

DOGO News: current events and non-fiction for your classroom

DOGO news: current events for the classroom

What it is: DOGO News is a great place for kids to learn about current events, read non-fiction articles, and access customized content that you curate. DOGO features thousands of news articles and new original content added daily, this is the leading online source of current events for students, teachers, and schools! DOGO Teachers allows you to create a special page for your students. Each article lists the Common Core Standards it meets, and the grade levels it is appropriate for.

How to integrate DOGO News in your classroom: DOGO News is a fantastic resource for you (and students) to find, read, and interact with non-fiction news articles in your classroom. The site is very easy for kids to navigate. The homepage includes the most up-to-date content, but students also have the option to read articles based on a passion they have (science, social studies, world events, environment, fun, video, or sports) or to search for a specific topic. DOGO is obviously an easy go-to for current events and non-fiction reading and for research in the inquiry classroom.

Our students love to read an article as a class and then search for biases. If there aren’t any obvious biases, they talk about ways the topic might be written about with bias. This generally leads to really great class discussions and bunny trials of questions and research. DOGO is a great place for this activity to start.

DOGO also has a Books and Movies where kids can read reviews written by other kids for books and movies. Students can join DOGO to add their own book and movie reviews.

Tips: Teachers- you can sign up for two different kinds of accounts on DOGO. The free account lets you create your own DOGO class page and add your own assignments. There is also a paid account option that includes some additional features that would be ideal if you use Google Classroom and would like to access ready-made assignments on DOGO.

DragonBox Math Apps: Teaching students to think like mathematicians

DragonBox Math Apps: Teaching studentst to think like a mathematician

What it is: I adore the DragonBox math apps! I was first introduced to DragonBox through their Algebra app. The app takes away all math anxiety by teaching algebraic concepts without numbers or algorithms. It is genius! You can read my review of that app here. DragonBox Numbers is for kids who are new to numbers, counting, addition, and subtraction. DragonBox BIG Numbers is the next level app of Dragon Box Numbers. As they play, children learn about how big numbers work, and how to perform long addition and subtraction. In DragonBox Elements, students will secretly learn geometry. By playing 100+ puzzles, kids will gain a deep understanding of the logic of geometry. As they play, students will actually be recreating the mathematical proofs that define geometry. What I love about the DragonBox suite of math games is that they are unlike any other math apps. You won’t find mindless repetitions and quizzes of math facts, instead, these games help teach students how to think like mathematicians. This is learning math through exploration.

How to integrate Dragon Box math apps into your classroom: The DragonBox math apps take advantage of a student’s innate curiosity through play and exploration of math concepts. Each game engages students through exploration, reflection, and application.  If you have a 1:1 iPad classroom, use these apps daily! Students can play a game, and then come together as a class to reflect and write down the rules they have learned in that “chapter.” Then, take an equation from the game and solve it on paper. See if students can connect the cards and rules of the game to the equations on paper. Solve the equations using strategies and rules from the game.

In a one or two device classroom, play DragonBox as a class by connecting your device to a projector. Explore the rules together and let students take turns being in charge of a chapter. Review rules and make connections as a class. Set up DragonBox as a math center that students can visit in a rotation where one center is interacting with the game, the next is an opportunity to record rules learned and reflect, and the last is application of the rules to an equation.

Be sure to check out the DragonBox for educators where you can download teachers guides and printable resources for each game in the DragonBox math suite. You’ll also find a great “rules” guide for the algebra and geometry games.

These are seriously my favorite math apps of all time! They encourage kids who can think and apply like mathematicians rather than kids who simply memorize a formula. DragonBox creates a deep understanding of mathematical concepts and number relationships.

Tips: While the DragonBox suite of math apps aren’t free, you can purchase them at a deep discount for educational institutions and bulk purchases. Teachers, you can get access for free to make sure that the apps are right before committing to a purchase for your students. You can also purchase apps in bundles.

Mathigon: engage, play, and explore math

Mathigon explore, engage, play with math

What it is: Today I was working on our inquiry block framework for the 2017/2018 school year and, as often happens with inquiry, fell down a wonderful rabbit hole that led me to this site. Mathigon is a fantastic *newish* math site (it’s still being built and added to) that brings textbooks to life. I know you’ve probably seen this claim before, but this is unlike the other online interactive textbooks I’ve seen. It’s more…alive. It’s like a personalized tutor, combined with story, and exploration. Really, textbook is the wrong word, because this is something totally new. A chat bot tutor makes Mathigon like having an additional team of teachers in the room, ready to answer questions and support your learners in real time. Real life application and narrative is part of the Mathigon DNA. This means that beyond learning the “rules” of math, learners are actually invited to engage the concepts, play with them, explore them in context, and find out what other concepts they are linked to. Rather than a linear approach, Mathigon lets students explore math in a more organic way through interest, linked ideas/concepts, and in a ‘down the rabbit hole’ approach. There are very few math sites that I’ve come across that truly support an inquiry approach to learning math, Mathigon is one such site.

How to integrate Mathigon into your classroom:  There are several ways to use Mathigon. Students can get a personalized math curriculum that adapts to them and offers recommendations based on what they are interested in and their understanding of different concepts. They can begin from several places: exploring the applications of math in every day life, the link between math and origami, Eureka Magazine (published by Cambridge University), through problems and puzzles, through fractal fiction, or through courses for grades 6-college.

The Treasure Hunt is a complete PDF Kit that can be downloaded and printed out. Split your students into teams and send them on an epic math treasure hunt through your school (available in primary and secondary levels) where each of the clues leads them to another.

Fractal fiction is particularly cool because it lets students explore mathematical concepts through interactive narrative of popular films including Alice in Wonderland, Oceans 11, and Harry Potter (the latter two are coming soon). You really have to go experience these to really understand the brilliance of how Mathigon has combined story with math exploration.  From the site: “The key to successful teaching is captivating storytelling – through real life applications, curious examples, historic background, or even fictional characters. These interactive slideshows combine an engaging narrative with beautiful graphics – explaining mathematical ideas in the context of popular stories and movies. They can be watched individually or be presented in classrooms.”

I cannot say enough about how impressed I am with the vastness of what this site brings to the classroom. Even if you don’t have the capacity for each of your students to have an account with Mathigon, the site can be easily adapted for the one computer classroom (as a center activity). Much of the content could also be explored as a whole class with a projector-connected computer.

Tips: I’ve found that really well done content for grades 6-12 (and beyond) in math to be severely lacking. This is a welcome addition to the math teachers tool box of resources!

Making & Science with Google

Making & science with Google

What it is: Making & Science is an initiative by Google aimed at showing students that anyone can be a maker or a scientist. Using the featured Science Journal app (Android and Chromebook only), students can measure light, sound, and more. They can also use the app to record observations, organize data, and add observational notes. Making & Science has partnered with Exploratorium for some fantastic activities that will have students exploring the world as a makers and scientist in no time. Students will explore light, sound, motion, graphs, conductivity, and much more through activities powered by the Science Journal app.

How to integrate Making & Science with Google in your classroom: The Science Journal app makes any Android phone or Chromebook computer into a scientific tool that students can use to collect data on light, sound, and motion. The activities included encourage students to explore the world as scientists and makers. The activities are simple enough for any classroom, and lead the students through understanding how the world around them works. They are a great kick-off to more in-depth studies of light, sound, and motion and teach students how to use the sensors on their phone and computer to collect data.  Most activities take 15-30 minutes, so would be the perfect length for groups of students to visit as a center if you have a few devices for students to use. I love the way each activity thoroughly introduces a concept, and equips students with the tools and understanding for further experimentation and investigation. The activities included are wonderful, but after students have a basic understanding, encourage them to come up with their own investigations of light, sound, and motion.

Students could use the Exploritorium Activities as guides for creating their own investigations and activities to share with the class.

Don’t miss out on the Making and Science YouTube channel, and recommended podcasts. They are AWESOME!

Tips: While the activities reference the Science Journal app for data collection, if you have access to other types of devices you can still use these activities! Just download a light, sound, and motion sensor app and your students can complete any of the activities on the Maker & Science site.