Tools

The Art of Tech Integration in Education

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As a Tech TOSA, I often surprise people when I come into a class where no technology is needed. We have been conditioned to think that being “Tech-Forward” means more screens and more apps, but I’ve found that true technology integration is actually about the “Edit.” It’s about having the courage to ask why we are using a tool and if it actually levels up the assignment.

I’ve always lived by one rule in my classroom: “The person who is doing the work is doing the learning”. If the technology is doing the heavy lifting, the student is just a passenger.

The Power of the “Closed Lid”

The “Edit” starts with the foundation of the Closed Lid. In many classrooms, an “open lid” can create a “stimulation tax” that pulls focus away from Priority Standards and learning. I tell teachers that the most powerful thing they can do is give their students permission to unplug so they can focus on the raw logic of the lesson.

For those who are tech-nervous, stopping at paper and pencil is a perfectly valid pedagogical choice. However, for those looking to “lighten the load,” we can build a bridge to a tool like Snorkl.

The Powerful Team:

  1. Phase 1: Students do the messy, non-linear work on paper—doodles and all!.
  2. Phase 2: They take a quick photo of that work and upload it to Snorkl.
  3. The Payoff: The teacher gets immediate feedback and a clear window into class-wide progress without having to collect a stack of 30 physical papers.

Editing the Distractions: The 3-Font Rule

Once the thinking has been captured on paper, moving to the screen brings a new set of challenges. I can’t tell you how many times I’ve watched students waste fifteen minutes finding a font, and sometimes color, instead of developing an idea.

This is why I advocate for the 3-Font Rule:

  • The Constraint: Students choose from only three fonts and one size (12pt). Think boring. There is a time and place for the ‘fun’ fonts.
  • The Logic: This isn’t about being restrictive; it’s about protecting “think-time”. When we “edit” the infinite choices of the digital world, we remove the barrier to the standard, allowing the student to focus on the content.

The “Individualized Edit” and Equity

The “Edit” mentality isn’t one-size-fits-all. We have to remember that for some students, the technology is the bridge that allows them to do the work.

  • The Equalizer: For a student with an IEP, dictating notes into a computer can be the tool that enables them to synthesize information.
  • The Success Story: I once had a student who wasn’t a strong reader. While the rest of the class read, he watched videos and took notes by hand. Because he had the right “Edit” for his needs, he was successful.

The Neuroscience “Why”

Why does the “Edit” back to paper work so well? Recent science shows that handwriting is actually a “high-performance” activity for the brain. A 2025 study published in the journal Life revealed that handwriting engages significantly wider neural networks than typing.

Final Thought

The “Edit” mentality isn’t about being anti-tech; it’s about being pro-brain. We use technology when it enhances the lesson, but we have the courage to close the lid when the technology becomes a distraction. By editing out the noise, we ensure that the students remain the ones doing the thinking.

Because at the end of the day, if they aren’t doing the work, they aren’t doing the learning.

Magic School – UDL Choice Board

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Earlier today, I had the pleasure of meeting with a fantastic group of teachers from Plymouth-Canton Community Schools in Michigan. Our main focus was on incorporating more EduProtocols and technology into math classes. During our discussion, we touched upon the topic of what students can do once they have demonstrated mastery using MathReps. Specifically, if students show mastery on their weekly assessment for two consecutive weeks, I no longer require them to do the daily practice in the following week. To provide an alternative avenue for these students, I suggested the use of a Choice Board, allowing them to delve deeper into the skills they have mastered. This idea sparked a conversation about the UDL Choice Board creator in Magic School. Intrigued by this resource (see previous post), I decided to explore this component further, and I must say, I was not disappointed.

After finding the Choice Board (UDL), I chose the grade level and input the standards. For my purposes, I chose all of 5.NBT. I gave the tool minimal parameters.

The output was okay:

Choice Board: Place Value and Decimals

AssignmentDescription
  1. Place Value Detective| Create a comic strip showing how a digit’s value changes based on its position in a multi-digit number.
  2. Decimals in the Real World| Research and create a slideshow presentation showcasing examples of decimals in everyday life.
  3. Powers of 10 Exploration| Design a poster explaining patterns in the number of zeros when multiplying or dividing a number by powers of 10.
  4. Decimal Number Line| Construct a number line using decimals and demonstrate how to compare decimals using greater than, less than, and equal to symbols.
  5. Rounding Riddles| Create a set of riddles where students need to round decimals to a specified place value to find the answer.
  6. Decimal Art Gallery| Use various art materials to represent decimals visually. Label and display your artwork in a mini gallery.
  7. Interactive Place Value Game| Develop a board game that involves using place value understanding to round decimals. Include instructions and game pieces.
  8. Decimal Number Chef| Write a step-by-step recipe using decimals for a favorite dish. Include appropriate measurements and conversions.
  9. Decimal Reflection| Write a reflective journal entry explaining the importance of understanding place value and decimals in real-world applications.

Remember to be creative and have fun with your chosen assignment! Additionally, ensure that your work demonstrates your understanding of place value and decimals.

But not very user-friendly. So, I modified my request. Not exactly what I wanted but much better visually. I would prefer if it were a 3 x 3 grid. I did put in the request unfortunately, the tool wasn’t able to create it. But the output was still good and easier to read. And if I really wanted a 3 x 3 grid, I could simply copy and paste the components:

Sure! Here’s the choice board in a 3 x 3 table format:

AssignmentDescription
1. Place Value DetectiveCreate a comic strip showing how a digit’s value changes based on its position in a multi-digit number.
2. Decimals in the Real WorldResearch and create a slideshow presentation showcasing examples of decimals in everyday life.
3. Powers of 10 ExplorationDesign a poster explaining patterns in the number of zeros when multiplying or dividing a number by powers of 10.
4. Decimal Number LineConstruct a number line using decimals and demonstrate how to compare decimals using greater than, less than, and equal to symbols.
5. Rounding RiddlesCreate a set of riddles where students need to round decimals to a specified place value to find the answer.
6. Decimal Art GalleryUse various art materials to represent decimals visually. Label and display your artwork in a mini gallery.
7. Interactive Place Value GameDevelop a board game that involves using place value understanding to round decimals. Include instructions and game pieces.
8. Decimal Number ChefWrite a step-by-step recipe using decimals for a favorite dish. Include appropriate measurements and conversions.
9. Decimal ReflectionWrite a reflective journal entry explaining the importance of understanding place value and decimals in real-world applications.

I hope this format is helpful for you and your students! Let me know if there’s anything else I can assist you with.

Can this be improved? Definitely! Did I invest a lot of time fine-tuning the tool’s parameters? No. However, considering the minimal effort I put in, the output turned out to be surprisingly good. Without a doubt, I wholeheartedly recommend Magic School! I remain a fan of this remarkable tool!

Magic School AI

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The world of AI tools is vast and ever-evolving. Amongst the sea of options, one particular tool has caught my attention: Magic School. With a focus on teachers and schools, it offers a unique approach that sets it apart from the rest. Its comprehensive range of categories opens up exciting possibilities for integrating AI into different educational contexts. The best part? It comes in both a free and paid version, tailored to suit varying needs. Allow me to share an image of its advantages from their official website. Get ready to dive into a world of innovative possibilities!

Compare subscription options for Magic School

On the home page, you will find 66 different categories. Some examples of these categories include Math Spiral Review, Standards Unpacker, Sentence Starters, Text Leveler, and IEP Generator, among many others. As I was curious, I decided to take a closer look at the Standards Unpacker category. What caught my attention was the fact that it addresses the specific skills that students need to succeed, provides clear Learning Targets, and summarizes the standard. However, I found the Instruction and Assessment Plan section to be somewhat vague. Nevertheless, one interesting aspect is that you can go back to the tool and use that initial plan as a starting point to create a more detailed and thorough plan.

Standard: 5.NBT.A.1

Break Down Standard:

Skills: Recognizing place value in multi-digit numbers
Knowledge: Understanding how the value of a digit changes as it moves to the left or right in a number
Concepts: Place value, base-ten number system, positional notation

Define Expectations:
In this standard, 5th-grade students are expected to understand the concept of place value in multi-digit numbers. They should recognize that each digit in a number has a specific value determined by its position. Additionally, they should understand that the value of a digit in one place is 10 times greater than its value in the place to its right, and 1/10 of what it represents in the place to its left.

Formulate Learning Targets:
By the end of this standard, students should be able to:

-Identify the place value of digits in multi-digit numbers.
-Determine the value of a digit based on its position within a number.
-Describe the relationship between the value of a digit and its position.

Instruction and Assessment Strategies:
Use manipulatives, such as base-ten blocks, to help students visualize and understand the concept of place value.
Provide opportunities for students to explore and compare the values of digits in different positions within a number.
Use number lines and number charts to reinforce the concept and relationship of place value.
Engage students in problem-solving activities that require them to apply their understanding of place value.
Assess students' understanding through quizzes, worksheets, and real-life problem-solving tasks that involve place value.

Summarize:
In this standard, 5th-grade students are expected to develop a deep understanding of place value in multi-digit numbers. They should be able to recognize the value of each digit based on its position within the number and understand the relationship of each digit to its neighboring digits. Instructional strategies such as hands-on manipulatives, visual aids, and problem-solving activities can help students master this concept. Assessment strategies should include both formal and informal methods to gauge students' understanding and application of place value.

From my brief exploration, I believe that this tool has the potential to greatly assist teachers in working more efficiently. It eliminates the need for teachers to come up with learning objectives, develop grading criteria, and design lesson plans. Although AI should not replace all of a teacher’s work, it can certainly assist them in the more demanding tasks. Teachers will still have the ability to review and customize the generated outputs to suit their specific requirements. Overall, I am optimistic about the potential of this tool.