Tag technology

Bringing STEM to All Classrooms

Dr. Rachelle Dené Poth Leave a comment

Updated from a prior post

With the school year ending, it does not mean that learning has to stop. Throughout the summer, students and educators have time to relax and recharge, but it can also be a good opportunity to take advantage of some learning experiences. I think it is a fantastic time to dive into STEM learning, especially with having more time to get outside and explore! There are a lot of opportunities that promote engaging, hands-on activities for students and educators. Find some maker projects, ways to connect in the community and engage in place-based learning, or even participate in STEM camps or events that local organizations or schools may offer.  

With a reported 3.5 million jobs requiring STEM skills by 2025, it is important to find opportunities that will help students learn about the possibilities in these fields and develop the essential skills that are in demand.

Here are three ideas to consider for the summer that might also be a great way to start the next school year!

1. DIY STEM Projects

Getting involved in STEM learning in the summer does not require many materials at all. When students and educators engage in “do-it-yourself “(DIY) STEM projects, it helps to fuel creativity and excitement in learning. The possibilities for DIY STEM projects are limitless. There are books and resources available online to explore. Dr. Jacie Maslyk shares many ideas in her blogs and books for STEM-focused learning. The benefits are that it allows students to consider different materials and problem-solve or create a design. DIY activities are great for encouraging students to find a solution to a local or global challenge and see the impact they can make when they develop their STEM skills! Projects like this will not only foster a sense of accomplishment but will encourage critical thinking, problem-solving, and innovation. Students can shift from simply being consumers to becoming creators and innovators!

2. Place-Based Learning

With additional time in the summer or even throughout the year, connecting students with opportunities for real-world learning in their community is essential. By volunteering or participating in place-based learning, students can connect with community members working in STEM careers, for example. These collaborations enable students to apply their knowledge in practical, real-world settings. Whether it’s working in a community organization that is focused on nature preservation, assisting with projects in the community, or taking advantage of internships and mentorship programs, students can get a glimpse into the professional world and build self-awareness of their interests in learning and future careers. We want our students to develop their global awareness, learn about the challenges being faced in the world, and then come up with solutions. Connecting with the community and engaging in place-based learning provides more authentic and real-world learning for students, which will promote student engagement and be more meaningful.

3. Virtual Programs and Online Courses

There are many tools available online for students to explore at their own pace and to find a topic of interest. Diving into programs to learn about coding and robotics, for example, offers many great benefits for students. Students can learn about programming languages, create their own software, or build robots or chatbots. With the resources available, students will develop computational thinking and problem-solving skills while also having the opportunity to boost their creativity.

Online courses and virtual programs provide flexibility, which enables students to learn at their own pace and explore topics of interest. Many of the programs and tools available offer interactive simulations, video tutorials, sample activities, and more, which help to engage students more in learning. Some sites such as Code.orgMITAIClubScratch, and Tynker provide interactive coding tutorials and projects suitable for beginners. I recommend exploring Minecraft Education and Hacking STEM to give even more choices. For some robots, check out MatataStudio products such as TaleBot Pro or Vinci Bot or check out Marty the Robot from Robotical! Interested in augmented and virtual reality, dive into CoSpaces Edu!

Code with Google is focused on closing equity gaps in computer science opportunities and offers free resources for students. For older students and educators looking for courses and more activities, websites like Khan Academy and Udemy have courses covering various STEM topics, allowing students to learn at their own pace and explore their interests.

Summer learning opportunities for STEM can offer students a transformative learning experience that will spark their curiosity for learning and cultivate STEM-focused careers. These opportunities not only enhance academic skills but also equip students with essential 21st-century competencies, such as critical thinking, collaboration, and adaptability.

About the Author:

Rachelle Dené is a Spanish and STEAM: What’s Next in Emerging Technology Teacher at Riverview High School in Oakmont, PA. Rachelle is also an attorney with a Juris Doctor degree from Duquesne University School of Law and a Master’s in Instructional Technology. Rachelle is currently finishing her doctorate with a focus on AI and Professional Development. In addition to teaching, she is a full-time consultant and works with companies and organizations to provide PD, speaking, and consulting services. Contact Rachelle for your event!

Rachelle is an ISTE-certified educator and community leader and served as president of the ISTE Teacher Education Network. She was named one of 30 12 IT Influencers to follow in 2021 and one of 150 Women Global EdTech Thought Leaders in 2022.

She is the author of eight books including ‘In Other Words: Quotes That Push Our Thinking,” “Unconventional Ways to Thrive in EDU,” “The Future is Now: Looking Back to Move Ahead,” “Chart A New Course: A Guide to Teaching Essential Skills for Tomorrow’s World, “True Story: Lessons That One Kid Taught Us,” and her newest book “Things I Wish […] Knew” is now available at bit.ly/thingsiwishedu.

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

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End of the school year? Dive into Brisk Teaching Today!

Dr. Rachelle Dené Poth Leave a comment

In collaboration with Brisk Teaching, All opinions are my own

The life of an educator is always quite busy! There are so many demands on our days that finding extra time to try something different can be tough! However, when you find out about a great tool that not only helps you to save time and is easy to use but also provides many other benefits that will enhance instruction and impact students, then it’s definitely worth diving into some exploration!

Especially during this school year, which brought even more tools, educators are increasingly turning to technology to streamline workflows and enhance instructional quality. A few months ago, I started exploring something new that I found, and I love sharing it with educators. Brisk Teaching, an AI-powered Chrome extension, is designed specifically for educators! What makes it incredibly powerful is how seamless it is to use. Brisk is not an additional app or tool that you have to manage – it integrates directly into the tools teachers are already using (Google Docs, slides, articles, YouTube videos) to save you time right where you’re already working! Efficiency and productivity with Brisk!

The end of the school year is the perfect time to try out these great features and see how Brisk can save time, help with assessments, and more.

Here’s a look at some of Brisk Teaching’s key features, which are helping educators do more in less time! Brisk’s key features include Content Creation, Feedback, Inspect writing, and Differentiation.

Content Creation

Brisk Teaching is amazing in how it transforms the way educators create their materials. With Brisk, you can quickly transform articles, YouTube videos, Google Docs, and other content into worksheets, quizzes, presentations, and more – right from the original sources. I really enjoy using awesome features like the AI Presentation Maker and AI Lesson Plan Generator, which enable teachers to design high-quality, engaging instructional content in minutes! For example, my favorite option, the AI Presentation Maker, enables educators to convert information obtained from articles, websites, or YouTube videos directly into a Google Slides presentation. The slides are created within minutes, and they automatically save directly in your Google Drive so you can easily change them as you normally would when using Google Slides. It just streamlines the whole process, all possible with a simple prompt, grade level, and design selection. It has been so much fun to demonstrate how quickly the slides are generated from a simple prompt of a few words.

Educators are amazed to see each slide being generated with content, images, and a great layout! Brisk not only simplifies the creation process but also ensures that the content is relevant and engaging for students.

The AI Lesson Plan Generator generates comprehensive plans in alignment with specific teaching objectives, grade levels, and more, which significantly reduces the time that teachers spend on lesson planning. Quickly generate a detailed rubric with the AI Rubric Generator or some Depth of Knowledge (DOK) questions. Brisk Teaching empowers educators to produce a variety of educational resources efficiently, which gives them more time to spend working with students!

Feedback

As we know, feedback is essential for learning. It needs to be authentic, meaningful, and timely. With Brisk Teaching, educators can provide this feedback even faster using the Targeted Feedback Generator. This feature enables educators to provide individualized comments to each student right within the student’s Google Docs.

Additionally, there are several feedback styles to choose from, including Glow & Grow praises and actionable Next Steps. The feedback will help students understand their strengths and identify areas for improvement. For educators, by automating the feedback process, Brisk helps educators keep providing feedback in a time-sensitive manner and promotes more consistent feedback for students. Choosing from the feedback styles can also help foster a supportive learning environment.

Inspect Writing

When you first explore the Inspect Writing feature of Brisk Teaching, seeing the replay of how a student has completed their assignment is really cool. The Inspect Writing feature provides educators with some insight into a student’s writing process, starting with any initial drafts to their final submission. With the replay, educators can develop a greater understanding of how a student approaches their work and can then use this to better target instructional approaches and provide more personalized feedback to better meet student needs and help them to grow.

Inspect writing is also a good way to engage a discussion about academic integrity. I see this as a way to focus on accountability also, especially when working with a group, and also as a way to focus on time management when conducting research or writing.

Differentiation

It is essential that all educators ensure that students have access to the learning materials that best match their reading levels and language needs. Promoting inclusivity is critical, and with Brisk Teaching tools like the Text Leveler and Translate Text Tool, educators can instantly adjust the complexity of texts or translate them into different languages for students. With these options, we can ensure that all classroom materials we use are accessible to students from varying linguistic and academic backgrounds and learning needs.

Why I recommend Brisk

Brisk Teaching is more than just a tool; it provides a comprehensive solution that has been designed by educators for educators. It aims to reduce burnout and enhance instructional effectiveness. It is easy to integrate in the classroom and its key features help to streamline our workflow and save time for us to work more with students and colleagues! As technology continues to evolve, tools like Brisk Teaching will continue to add new features in response to educator and student needs. Stay tuned for some other exciting features coming from Brisk. Brisk Boost for Students coming soon!

Teachers use free! Sign up here: https://www.briskteaching.com/

Check out tips to get started on their PD page: https://www.briskteaching.com/brisk-professional-development-resources

Guest blogging opportunities

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Contact me directly for a sponsored post.

Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

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Unlocking Educational Innovation: Integrating Bloom’s Taxonomy and AI in the Classroom

Dr. Rachelle Dené Poth Leave a comment

In collaboration with ClassPoint

The surge in AI integration across various sectors, including education, is becoming more apparent. AI is now involved in tasks like assisting in curriculum design, offering feedback, supporting essay composition, and acting as learning companions, showcasing its multifaceted potential in enhancing classroom practices. The emergence of AI emphasizes the importance of equipping students with advanced cognitive skills, such as critical and analytical thinking. Rather than perceiving AI as a barrier to these higher-order thinking skills (HOTS), it is essential to explore how AI can be leveraged to augment and refine them.

How to Teach Higher-Order Thinking

Prioritizing the cultivation of HOTS is essential for fostering innovation and preparing students for success in this fast-paced world. While some may fear that the rise of AI could diminish the relevance of these skills, a study by the McKinsey Global Institute (2017) on AI and automation suggests otherwise. The study found that while AI and automation may replace certain routine tasks, they also create new opportunities for tasks requiring human-centric skills, including higher-order thinking. Therefore, far from declining, the importance of HOTS is underscored in the age of AI.

Higher-order thinking refers to cognitive processes operating at the top tiers of Bloom’s taxonomy, including analysis, evaluation, and creation. These advanced cognitive skills demand the application of critical thinking, where learners independently generate understanding, make connections, and assess information based on their learning experiences.

Bloom’s Taxonomy Questions for Higher Order Thinking Skills

Developing higher-level questioning requires teachers to possess a profound understanding of Bloom’s Taxonomy levels and the art of questioning.

While questioning serves as a fundamental tool utilized by educators on a daily basis, it is essential to recognize that the purpose of questions aimed at promoting HOTS extends beyond the mere recollection of facts or information. Rather, these inquiries are crafted to stimulate critical thinking and foster a deeper grasp of the content. By prompting students to delve deeper into the material, such questions encourage them to construct a more comprehensive understanding, thereby enabling them to apply their knowledge effectively in real-world contexts.

Open-ended questions aimed at higher-level thinking encourage learners to delve into topics more deeply, utilizing their knowledge and abilities. These types of questions cannot be answered with a simple “yes,” “no,” or brief response. Instead, they encourage individuals to critically analyze the information they’ve acquired and construct cohesive, relevant answers.

Understanding Bloom’s Taxonomy

Bloom’s Taxonomy is a structured hierarchy, developed by Benjamin Bloom back in the 1950s, that classifies thinking behaviors essential for learning. Let’s dive into how you can incorporate Bloom’s Taxonomy in your classroom teaching with strategic questions tailored to each level:

  • Remember: This is the foundational step. It’s all about remembering facts. The base of Bloom’s pyramid, the “Knowledge” level, is the stepping stone to all higher-order thinking skills. At this stage, students absorb raw facts and figures, laying the groundwork for more complex cognitive tasks
    • Sample of questions to ask students:
      • “When did the American Civil War start?
      • “What is the capital city of Canada?”
  • Understand: This stage challenges students to grasp the meaning of the information, like interpreting the primary theme of a poem. It’s not just about parroting back facts; it’s about making sense of them. Comprehension, a critical step in Bloom’s Taxonomy, involves not just absorbing information but truly understanding it. Students delve into the “why” and “how” behind concepts, ensuring they can explain and translate information in their own words.
    • Sample of questions to ask students:
      • “How would you summarize this chapter to a friend who hasn’t read it?”
      • “What does this graph indicate about the relationship between X and Y?”
  • Apply: Can students extend their knowledge to unfamiliar situations? For instance, can they go beyond simply memorizing the Pythagorean theorem and instead use it to address practical challenges like those found in architecture or engineering? The “Application” level in Bloom’s Taxonomy drives students from merely knowing information to applying it in novel scenarios. It’s not just about retaining or understanding; it’s about putting that knowledge into practice, a critical leap in cognitive development.
    • Sample of questions to ask students:
      • “How can you demonstrate the law of conservation of energy using a simple experiment?”
      • “How would you apply the concept of photosynthesis in setting up an efficient greenhouse?”
  • Analyze: This stage encourages students to dissect information and grasp its structural components. For example, in a science experiment, can they discern the variables, methodologies, and outcomes? The “Analysis” phase of Bloom’s Taxonomy guides students towards the dissection, differentiation, and organization of information. At this stage, learners move beyond simple application of knowledge, delving deeper to comprehend the complex components of a topic and their relationships.
    • Sample of questions to ask students:
      • “Based on the historical document, can you identify the underlying causes of the event?”
      • “Which parts of this experiment were crucial in determining the final outcome?”
  • Evaluate: In this phase, students assess values, make judgments, and substantiate decisions. They might be challenged with debating the ethics of a historical event or critiquing a piece of art. Occupying the pinnacle of Bloom’s Taxonomy hierarchy, the evaluation stage requires discerning scrutiny and the formulation of judgments based on predetermined criteria. It goes beyond mere identification of pros and cons to providing recommendations or making informed decisions.
    • Sample of questions to ask students:
      • “Which method discussed in class do you think is most effective for solving this problem, and why?”
      • “In comparing these two characters, who do you believe showed greater resilience, and what evidence supports your view?”
  • Create: In this phase, the emphasis lies on combining elements to construct a novel pattern or structure. Picture it as creating a fresh narrative by blending components from different fairy tales. Culminating Bloom’s hierarchy, the Creating level tasks students with assembling pieces into an original arrangement, devising innovative solutions, or fostering a unique perspective.
    • Sample of questions to ask students:
      • “Can you devise a new experiment that would expand on the findings from our previous lab?”
      • “Can you compose a poem that integrates five different literary devices we’ve discussed this semester?”

Incorporating Technology into Bloom’s Taxonomy Teaching

In an era dominated by technology and AI, educators and presenters are constantly searching for innovative methods to capture their audience’s attention and ensure that learning remains both stimulating and impactful. Enter ClassPoint AI, a groundbreaking tool that automates Bloom’s Taxonomy question generation based on teachers’ PowerPoint slide content.

AI-Powered Bloom’s Taxonomy Quiz Question Generation

Incorporating ClassPoint AI into teachers’ education or presentation strategy is not merely about utilizing technology—it’s about transforming the perspective and approach towards assessments and interactions. Here’s how:

  • AI-Powered Efficiency: With ClassPoint AI’s AI-generated quiz questions, teachers can instantly transform any PowerPoint slide into an engaging quiz. This not only saves time but also ensures the quiz aligns with the content’s relevance. It is a great way to involve students in the use of AI for purposeful learning!
  • Versatile Assessment Features: Through its flexible quiz customization, ClassPoint AI breaks the monotony of conventional quizzes. Teachers can tailor quizzes to match specific learning objectives, enhancing engagement and effectiveness. Creating quizzes that meet students’ needs is easy!
  • Fostering Critical Thinking: Crafting questions based on Bloom’s Taxonomy cognitive complexity hierarchy ensures that students go beyond mere memorization. Instead, they engage in analysis, evaluation, and synthesis of information, resulting in a profound comprehension of the subject matter.
  • Closing Language Barriers: ClassPoint AI’s multi-language support guarantees inclusivity, ensuring that all learners, whether international students in a classroom or a diverse audience in a global seminar, are accommodated.

While ClassPoint AI is undoubtedly invaluable for educators, its utility transcends the boundaries of traditional classrooms:

  • Corporate Training Sessions: Utilizing ClassPoint AI, trainers can assess employee comprehension in real-time during workshops, enhancing interactivity and effectiveness.
  • Webinars and Online Workshops: Incorporating quizzes through ClassPoint AI ensures sustained audience engagement and immediate feedback for presenters.
  • Language Academies: With ClassPoint AI, language instructors can develop personalized quizzes in various languages, enriching language learning and comprehension.

Bonus: Interactive Classroom Activities You Can Run in Class for Each Bloom’s Taxonomy Level

Utilizing the Bloom’s Taxonomy framework in teaching doesn’t have to be a laborious task. With ClassPoint, each stage of Bloom’s Taxonomy instruction can be amplified through a variety of presentation, interactive quiz and gamification tools.

Here are a few methods for seamlessly incorporating your lessons within the Bloom’s Taxonomy framework:

Lower-Order Thinking Skills

Activities Involving Recalling of Information

  • Run “Multiple Choice” quizzes to test students’ ability to recall important information
  • Run “Fill In The Blanks” activities to test students’ understanding of a new topic being taught

Activities to Test Understanding

  • Run “Word Cloud” as a tool for brainstorming and ideas collection to encourage the solidification of understanding of a new concept being taught.
  • Run “Audio Record” to encourage students to submit their responses via audio format.

Problem-Solving Activities

  • Run “Slide Drawing” to encourage students to submit their responses by drawing or editing the teacher’s slide
  • Run “Short Answer” and solve problems by offering students’ point of view

Analysis

  • Use “Draggable Objects” to move objects freely during a live presentation where teachers and students can label and classify objects into their respective categories.
  • Use “Annotation Tools” to build mind maps and concept maps and help students understand the relationships between concepts.

Higher-Order Thinking Skills

Evaluative Activities

  • Use “Timer” to run debate or role-play activities with students to enhance their critical thinking.
  • Use “Quick Poll” to gather students’ responses and feedback on a topic being taught.

Creative Activities

  • Use “Draggable Objects” to create something new by putting together the puzzle pieces on the teachers’ slides.
  • Run “Video Upload” to encourage submission of projects in the form of videos or vlogs to encourage creativity and innovation.

Embrace The Synergy

In today’s educational landscape, the fusion of Bloom’s Taxonomy with AI heralds a new era of classroom innovation. By embracing this synergy, educators can empower students to develop critical thinking, problem-solving, analysis, evaluation, and creativity—essential competencies for success in the modern world. Tools like ClassPoint AI present an exciting avenue to revolutionize teaching HOTS, offering efficient quiz generation based on Bloom’s Taxonomy and fostering interactive learning experiences. As we navigate this transformative journey, let’s harness the power of AI to cultivate agile, forward-thinking learners.

Guest blogging opportunities

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Contact me directly for a sponsored post.

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************ Also check out my THRIVEinEDU Podcast Here!

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Benefits of Screen Time for Children

Dr. Rachelle Dené Poth Leave a comment

Guest Post by Jada Hewes, Mei-Lynn Bukunt, & Sarah Rosen

In today’s day and age, discussions revolving around screen time for children often have a negative connotation. Concerns about the impact screens have on children’s development, health, and socialization have a widespread belief that it is harmful in the long run. However, when taking a deeper look, research reveals many benefits that arise from using screen time in moderation. 

First, it is important to recognize the difference between what is shown on the child’s screen. The specific content, and how it is presented or used, plays a significant role in the effects on the child. For example, aimless scrolling through social media or hours of watching cartoons might fall under the category of negative effects of screen time if the child is just passively looking at the screen. 

On the other hand, if the screen time is interactive, educational, and uses critical thinking, it can be beneficial. In an article titled “Here’s What the Research Says About Screen Time and School-Aged Kids” the author, Kecia Ray, explains that “excessive screen time is concerning, but when used for education, it can be beneficial” (para. 1). When screen time is focused on educational purposes there are many benefits. Ray (2023) mentions research done in Australia on 4,013 children that focused on different categories of screen time. The categories were social, educational, passive, interactive, and other. The study concluded that the type of screen time determined whether or not there was a negative or positive impact. The research showed that educational screen time was the most beneficial. 

In addition to this, the virtual universe provides what seems to be a never-ending display of resources and learning opportunities that can enhance a child’s cognitive development. For example, screen time can be used to develop a variety of skills, including digital skills, creative thinking, problem-solving, communication, social, motor, and goal-setting (RaisingChildren, 2022). These skills are developed when children not only consume media, but also produce their own media – producing content, like writing a blog, creating music, or designing films, is highly beneficial for children.

Digital skills can be enhanced when children learn about video-editing. This can be learned while creating educational videos and content. In addition, problem-solving skills can be strengthened by playing games that involve coding and experimentation. Online applications such as Duolingo can improve communication skills and cultural knowledge expansion. Also, using technology and playing video games can also improve a child’s fine motor skills. Interacting with computers stimulates hand-eye coordination and improves visual intelligence.

Critics of screen time also express concerns about its impact on sleep. While blue light can have negative side effects, when used with proper management, these side effects can be avoided. Parents can establish screen time limits that do not allow their child to go on their phone before bed in order to promote healthy sleep habits. There are also various settings in smartphones and tablets that can shift the device into a “night mode,” which dims the lighting and filters out the blue light in order to reduce the negative impact of digital use before bed. 

Another significant benefit of screen time is its potential for social connection. While critics argue that screens isolate children, they can also facilitate meaningful interactions. Video calls with relatives or friends can help children maintain relationships, especially in today’s world, where distance often separates loved ones. Online multiplayer games or collaborative platforms allow children to work together, problem-solve, and build friendships in virtual spaces. These experiences can teach valuable social skills such as teamwork, communication, and empathy.

In the realm of creativity, screens offer a myriad of opportunities. Digital art programs, music composition software, and video editing tools provide outlets for self-expression and artistic exploration. Many young creators find their passion through online platforms, where they can share their work and receive feedback from a global audience. Screen time can nurture talents and hobbies, whether it’s photography, writing, coding, or graphic design. Rather than stifling creativity, screens can amplify it, offering tools and platforms for young artists, musicians, and writers to showcase their skills.

Physical activity is often cited as a casualty of screen time, but technology can also be a catalyst for movement. Active video games, such as those played with motion-sensing controllers, get children up and moving while they play. These games can be a fun way to encourage physical activity, especially when outdoor play is limited by factors like weather or safety concerns. Even simple apps that guide children through yoga or dance routines can promote physical health and well-being.

In conclusion, the argument that screen time is universally bad for children is a simplistic view that overlooks the potential benefits. When used in moderation and with purpose, screen time can enhance children’s learning, creativity, socialization, and physical activity. Educational apps, virtual experiences, and creative tools can all contribute positively to a child’s development. Rather than demonizing screens, we should focus on guiding children toward quality content and balanced screen time usage. By harnessing the potential of technology, we can empower children to learn, create, connect, and explore in ways that were never before possible.

Author Bios

Jada Hewes is majoring in Early Childhood Education and minoring in Speech Language and Hearing Sciences at the University of Massachusetts Amherst. She hopes to use her degrees in some way to help children learn and become successful. 

Mei-Lynn Bukunt is double majoring in Managerial Economics and Education at the University of Massachusetts Amherst. 

Sarah Rosen is majoring in Speech, Language, and Hearing Sciences at the University of Massachusetts Amherst. 

Bibliography

Angwin, J. (2022, June 4). Rethinking the effects of screen time on youth. The Markup. https://themarkup.org/newsletter/hello-world/rethinking-the-effects-of-screen-time-on-youth 

Charaipotra, S., & Zapata, K. (2022, December 19). The benefits of screen time in play that parents need to know. Parents. https://www.parents.com/parenting/better-parenting/teenagers/screen-time-experts-say-quality-matters-more-than-quantity-especially-in-a-pandemic/ 

Christensen, J. (2021, May 28). Children and screen time: How much is too much? Mayo Clinic Health System. https://www.mayoclinichealthsystem.org/hometown-health/speaking-of-health/children-and-screen-time 

Hu, J. C. (2020, March 10). Why It’s hard to know what problems screen time causes. Slate Magazine. https://slate.com/technology/2020/03/screen-time-research-correlation-causation.html 

Muppalla, S. K., Vuppalapati, S., Reddy Pulliahgaru, A., & Sreenivasulu, H. (2023). Effects of excessive screen time on child development: An updated review and strategies for management. Cureus, 15(6). https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10353947/

Morrison, N. (2021, September 10). Screen time is not as dangerous as you think—And it may help your child make friends. Forbes. https://www.forbes.com/sites/nickmorrison/2021/09/10/screens-are-not-as-dangerous-as-you-thinkand-may-help-your-kid-make-friends/?sh=150027c41176 

Raising Children Network. (2022, December 19). Using screen time and digital technology for learning: children and pre-teens. https://raisingchildren.net.au/school-age/school-learning/learning-ideas/screen-time-helps-children-learn

Ray, K. (2023, January 5). Here’s what the research says about screen time and school-aged kids. EdTech Magazine. https://edtechmagazine.com/k12/article/2023/01/heres-what-research-says-about-screen-time-and-school-aged-kids 

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

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Enhancing STEM Learning: The Role of Ethical AI-Powered Text-to-Speech Technology

Dr. Rachelle Dené Poth Leave a comment

In collaboration with ReadSpeaker

In the world of education, particularly in the fields of science, technology, engineering, and mathematics (STEM), accessibility and engagement are paramount. However, traditional methods of instruction often fall short in providing accommodations for diverse learning needs and fostering active participation. Enter ethical AI-powered text-to-speech (TTS) technology, a tool revolutionizing the educational landscape by bridging accessibility gaps and enhancing learner engagement in STEM content.

Focus on accessibility

Accessibility in education means providing equal opportunities for all learners, regardless of their abilities or disabilities. Visual impairments, learning disabilities, dyslexia, neurodiversity, and language barriers can pose significant challenges for individuals seeking to access STEM materials. Traditional textbooks are often overfilled with complex diagrams, graphs, and equations. These can create formidable obstacles for these students. However, TTS technology offers a solution by converting written text into spoken words, making STEM content accessible through auditory means. Through the seamless integration of TTS technology into digital platforms and Learning Management Systems (LMS), learners can engage with scientific concepts with ease and independence.

The benefits of TTS

Moreover, TTS technology transcends accessibility barriers to benefit a broader spectrum of learners, including those without disabilities. By providing alternative modalities for accessing information, TTS provides diverse learning methods. Learners thrive by adding auditory environments, where they can process and retain information more effectively through listening rather than reading. TTS facilitates this auditory learning process by transforming written STEM content into engaging audio presentations, which helps with enhancing comprehension and retention.

Additionally, TTS technology acts as a catalyst for increasing engagement among STEM learners. Engagement is crucial for fostering a deeper understanding of complex scientific concepts and promoting lifelong learning. However, traditional instructional materials often fail to captivate students’ interest, leading to disengagement and disinterest in STEM subjects. AI-powered TTS addresses this issue by transforming static text into dynamic, interactive experiences. By incorporating natural language processing and speech synthesis algorithms, TTS systems deliver content with human-like intonation and expression, capturing learners’ attention and sustaining their engagement throughout the learning process.

TTS technology also enables personalized learning experiences tailored to individual needs and preferences. Through customizable settings such as playback speed, voice selection, and highlighting options, learners can adapt the TTS output to suit their unique learning styles. For example, students can adjust the playback speed to accommodate their preferred pace of learning or select voices that resonate with them personally. These customization features empower learners to take control of their learning journey, promoting autonomy and self-directed learning.

TTS technology facilitates multimodal learning experiences by integrating audio with visual and interactive elements. For instance, TTS-enabled e-books can synchronize spoken text with highlighted visuals, enabling learners to follow along seamlessly. Additionally, interactive simulations and virtual labs accompanied by TTS narration offer hands-on learning opportunities, further enhancing engagement and understanding. By leveraging the power of AI and multimedia integration, TTS technology transforms static STEM content into dynamic, immersive learning experiences that appeal to learners of all ages and backgrounds.

In conclusion, AI-powered text-to-speech technology represents a paradigm shift in STEM education, offering unparalleled accessibility and engagement for learners worldwide. By breaking down barriers to access and fostering interactive learning experiences, TTS technology empowers individuals to explore the wonders of science, technology, engineering, and mathematics with newfound enthusiasm and confidence. As technology continues to evolve, so will the possibilities for leveraging AI to enhance STEM education and inspire the next generation of innovators and problem solvers.

See ReadSpeaker.com for more information. Interested in seeing how TTS would look in your environment? Contact us at contact@readspeaker.com.

About Rachelle’s blog

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

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The Truth About Learning Styles

Dr. Rachelle Dené Poth Leave a comment

Guest Post by Grace Coderre, Renee Graczyk, Lucy Vician

Opinions expressed are those of the authors

“Learning styles” is a concept that perpetuates the idea that certain individuals learn better when information is presented in their preferred style of learning (e.g., visual, auditory, kinesthetic). Diagnosing and presenting information according to learning styles has been a prominent practice in K-12 through higher education learning environments for years. There is also a thriving industry devoted to producing learning styles materials, including learning style tests, guidebooks, and workshops, all designed to assist educators in understanding and effectively teaching to students based on their specific style.

Upon copious research, we have concluded that learning styles lack credible validity and should not continue in educational settings. There are serious implications from accepting learning styles as fact. First of all, schools are wasting valuable and limited time and resources dedicating their practice to this misconception. Teachers spend precious time and effort catering to children’s learning styles when they could otherwise be implementing strategies scientifically proven to help students learn. The use of learning styles also limits student’s ability to overcome obstacles and develop a growth mindset, a crucial aspect of resilience. Students who are taught and believe that they can only learn through one style may reject instruction that does not reflect their chosen mode.

Learning styles are commonly chosen based on the individual’s perceived favorable mode of receiving information. However, this self-report may not be accurate and neglects to address the issue that one learning style may not be applicable to the multitude of modes needed to teach the variety of subjects mandated by the curriculum. The fact stands that the modes of teaching are dictated by the subject being taught. For example, students who are being taught geography will benefit from visually seeing a map in order to understand the content. Self-proclaimed “auditory learners” will not better understand geography based on an auditory explanation of the content (Marshik, 2015).

One of the main issues with the concept of learning styles is that it does not encourage students to struggle with learning in different ways. In reality, students need to be able to adapt to learning in different ways. Students will face a diverse set of lessons in their schooling that use different modes of learning. At some point, students will come face to face with lessons that need them to focus on being kinesthetic, auditory, visual, or tactile learners, either individually or all at the same time. The joy of learning and education is that you can do it in so many ways, which begs the question of why are we subjecting students to only focus on one type? Instead of spending so much time on having students figure out which learning style suits them best and altering lessons to fit those results, teachers should aim to help students embrace all styles while keeping an open mind.

Theresa LeBlanc from Texas University did a study on this subject and concluded that “teaching students the cognitive processes and skills involved in learning—those strategies that help learners think, solve problems, and create meaning—can similarly empower students, not with a false sense that one can learn only one or two ways, but with an understanding that learning is multifaceted, reflecting different combinations of learning abilities that make us effective in different ways” (LeBlanc, 2018, p. 39).

Students will be much more effective learners if they can adapt to any style of teaching and learning. Teachers can promote this idea of learning style flexibility while also celebrating student differences. While learning styles don’t have sufficient evidence, it is true that students learn best in different ways. Teachers can help students notice these differences and embrace them as a way to celebrate the uniqueness of learning. This is a much better use of time and resources in school than promoting an idea that has no adequate evidence to back it up.

But why has this educational myth persisted for so long, and more importantly, how can we, as future teachers, examine popular teaching approaches through a critical lens? Researchers, including Riener and Willingham (2010), believe that the confirmation bias has given us reason to believe that one learning style works best for everyone. Reiner and Willingham stated that “when evaluating our own beliefs, we tend to seek out information that confirms our beliefs and ignore contrary information, even when we encounter it repeatedly. When we see someone who professes to be a visual learner excel at geography and an auditory learner excel at music, we do not seek out the information which would disprove our interpretation of these events” (p. 35). These scholars believe that, in order to critically examine popular teaching approaches which might not be based in evidence, or even worse, might be harming our students’ learning, we need to be able to challenge our existing beliefs rather than accept what others say at face value.

Author Bios:

Grace Coderre is majoring in Early Childhood Education and minoring in Psychology at the University of Massachusetts Amherst.

Renee Graczyk is a third year student at the University of Massachusetts Amherst, majoring in Early Childhood Education and minoring in Psychology.

Lucy Vician is majoring in Early Childhood Education and minoring in Psychology at the University of Massachusetts Amherst.

About Rachelle’s blog

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

Join my show on THRIVEinEDU on Facebook. Join the group here

References

LeBlanc, T. (2018). Learning styles: Academic fact or urban myth? A recent review of the literature. Journal of College Academic Support Programs, 1(1), 34–40. https://doi.org/10.36896/1.1fa4

Marshik, T. (2015). Learning styles and the importance of critical self-reflection [Video]. TEDxTalk. https://www.youtube.com/watch?v=855Now8h5Rs

Reiner, C. & Willingham, D. (2010). The myth of learning styles. Change,

42(5), 32–35. http://www.jstor.org/stable/25742629

Empowering Teachers with Conversational AI

Dr. Rachelle Dené Poth Leave a comment

In collaboration with Kyron Learning, All opinions are my own

As educators, we have access to a wide variety of digital tools to bring into our classrooms. We use these to enhance learning and provide new opportunities for students to build content knowledge, as well as help them to develop essential digital skills. With the right methods and tools, educators are able to achieve the goal of providing the most authentic, meaningful, and personalized learning experiences for all students. Leveraging these resources helps us to do this more efficiently and effectively and enables us to provide timely feedback and support to our students.

Now, with the power of generative AI, there are even more valuable resources available for educators to bring into their classrooms. We can use these tools to enhance the content being taught and also to support students so they learn how to interact with AI responsibly and safely.

Kyron Learning is a revolutionary interactive video learning platform that leverages conversational AI to transform the way educators can support their students. Kyron empowers teachers by saving them time, personalizing instruction, and providing valuable student data. With Kyron, students have access to a personal tutor who works with them as they build their skills in an engaging space. The power of AI helps teachers create interactive lessons that are student-paced and student-focused. As students work through a lesson, it truly feels like a one-on-one tutoring session with a real teacher. Students can ask and respond to questions, engage in further discussions, and receive immediate feedback, all made possible by Kyron’s AI assistant. The “conversational engine” listens to the student’s responses and selects the most appropriate pre-recorded video segment to play next. When you try a Kyron lesson for the first time, you will be amazed at how well it flows!

Using Kyron, teachers can provide additional opportunities for students that give them more individualized learning experiences. It is easy to get started by simply choosing from the many lessons already available for students. Are you teaching math? Explore the lessons available such as “Base Ten,” “Place Value,” or “Comparing Fractions.” You will see the objectives, the number of lessons, and the languages available. You can even choose your tutor! With Kyron, teachers also have access to resources such as blogs and other materials to get them started!

Kyron Studio

Newly available in March, teachers can now create their own lessons for students using Kyron Studio! In addition to what Kyron already provides, with Kyron Studio, teachers can become AI tutors! Educators are also able to share and collaborate on lessons, leveraging the collective expertise of the teaching community. In Kyron Studio, teachers can design multi-modal AI-facilitated tutoring sessions for their students and make them even more personalized.

The sessions can be customized based on each teacher’s curriculum and include videos and visuals. It is a learning experience that engages and helps every learner to understand a concept in an authentic way and at their own pace.

Getting started with Kyron Studio is easy! You simply enter your objectives and provide relevant information about your learners, and a lesson outline with materials and questions will be generated. Once the lesson is generated, teachers can make any changes to the AI-generated content.

Learning with Kyron is fun!

As students work through lessons, they experience those “aha” moments when they finally understand something, and you can see their excitement! It is an engaging learning experience for students and one that also teaches them about purposeful and safe uses of AI. It benefits teachers because they can see students’ progress and support them right when they need it! While we all know technology can’t replicate the relationships between a teacher and a student, Kyron aims to also provide a supportive digital environment where students feel seen and valued.

I worked through several lessons and really enjoyed the experience. It was very different from other interactive lessons and platforms that place students in the lead. To start, I spent time selecting a lesson to dive into and then was surprised that I was able to choose my tutor! I enjoyed testing how my tutor would respond to my answers and questions. I told my tutor that I was confused, entered incorrect answers, and asked for help and more clarification. Each time it responded to me in such a personalized way that helped me to understand. If I got an answer wrong, my tutor provided me with an explanation or another example. It was amazing to see how well it responded to my questions and adjusted similarly to how a teacher would with students in the classroom.

Some of the great features of Kyron are:

Multimodal Learning: Lessons can incorporate videos, images, and text, catering to diverse learning preferences and creating a more engaging experience.

Easy Lesson Creation: Kyron Studio offers an automated and user-friendly interface for educators to build custom AI-powered tutoring sessions.

Educator Choice: Educators control lesson content, can upload their own visuals, and curate the questions and answers, which makes it more authentic for students.

Assessment and Misconception Detection: Kyron identifies student misconceptions during lessons, providing valuable insights for educators to personalize and target instruction.

Focus on Safety and Ethics: Kyron prioritizes student safety by implementing controls and moderation layers to prevent inappropriate interactions.

Commitment to Transparency: User data is anonymized and used ethically to enhance the platform.

Supporting Educators and Students

In an increasingly digital world, especially with the rapid advancements in AI, what I value about Kyron is its approach when it comes to the use of AI and the creation of this platform. The key principles are:

  • Connect, Engage, Encourage: When students complete a lesson, they are supported and receive encouraging feedback during their learning journey.
  • Teach Through Dialogue: The lessons are interactive and fun for students to complete because they are involved in a conversation. Through prompts that promote critical thinking and problem-solving, students can build their skills in ways that meet their pace and specific needs.
  • Work in Concert with Teachers: Kyron provides high-quality, differentiated curriculum and gives teachers access to real-time student progress data. It helps teachers to target instruction and personalize instruction for every student.

There are so many great lessons available to start with, or just dive in and create your own lesson in very little time. I definitely recommend that you try some lessons to experience how unique Kyron is.

Ready to transform your classroom and empower your students? Visit Kyron Learning today at http://app.kyronlearning.com and see how Kyron can help you create a personalized and engaging learning experience for all students!

And if you want to learn more and connect with other educators, Kyron just launched a community for educators called the Visionaries! Educators can join at www.kyronlearning.com/visionaries. Explore the great resources such as tutorials and more!

About the Author:

Rachelle Dené is a Spanish and STEAM: What’s Next in Emerging Technology Teacher at Riverview High School in Oakmont, PA. Rachelle is also an attorney with a Juris Doctor degree from Duquesne University School of Law and a Master’s in Instructional Technology. Rachelle is currently finishing her doctorate with a focus on AI and Professional Development. In addition to teaching, she is a full-time consultant and works with companies and organizations to provide PD, speaking, and consulting services. Contact Rachelle for your event!

Rachelle is an ISTE-certified educator and community leader and served as president of the ISTE Teacher Education Network. She was named one of 30 12 IT Influencers to follow in 2021 and one of 150 Women Global EdTech Thought Leaders in 2022.

She is the author of eight books including ‘In Other Words: Quotes That Push Our Thinking,” “Unconventional Ways to Thrive in EDU,” “The Future is Now: Looking Back to Move Ahead,” “Chart A New Course: A Guide to Teaching Essential Skills for Tomorrow’s World, “True Story: Lessons That One Kid Taught Us,” and her newest book “Things I Wish […] Knew” is now available at bit.ly/thingsiwishedu.

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

Join my show on THRIVEinEDU on Facebook. Join the group here

Innovation with PASCO in the Classroom

Dr. Rachelle Dené Poth Leave a comment

In collaboration with PASCO Scientific, All opinions are my own

As educators, our work extends beyond teaching our content. We are preparing our students for a rapidly evolving world that is experiencing changes in the world of work, especially because of the impact of technology. There is an increasing demand for STEM (Science, Technology, Engineering, and Mathematics) skills, with a continued growth in the number of STEM-related jobs available. Therefore, introducing STEM in all classrooms will best prepare students with the skills necessary to thrive as the world of work continues to change. Finding the right methods and tools is key. PASCO Scientific is a great option for educators looking to get started with STEM.

PASCO has developed tools and resources that make STEM learning engaging, interactive, and relevant for all students. My most recent exploration of their Coding with Vehicle Sensor Technologies Kit has been a great addition to my STEAM class and is easy to get started with!

Learning about sensors and more

The Coding Kit enables students to explore physical science by designing, testing, measuring, and coding with sensors that are similar to the technology used in modern vehicles. Because the kit provides students with a hands-on learning experience, it helps them to think about abstract and complex concepts and also sparks curiosity about how things work. It places them in the lead more with problem-solving, critical thinking, and collaboration with classmates and engages them in a variety of beneficial learning experiences. All of these are essential skills that are in demand and will lead to success for students.

What makes PASCO different

The way that PASCO provides the materials for educators and students makes it easy to get started. The kit includes everything that enables educators and students to start right away. The kit comes with the //code.Node is a wireless device that has six sensor inputs, a speaker, RGB light, and an LED array. It’s designed to make data collection and analysis more intuitive for students, encouraging them to explore and develop an understanding of various phenomena through block-based programming. Because the device is user-friendly, it requires minimal setup and supports students so they can dive right into experiments and have more time to explore and take on the learning challenges! The //code.Node Cart amplifies the learning by giving students the chance to engage in a more immersive exploration of vehicle sensing technology and it is a lot of fun for students to work with it in class and develop an understanding of what goes into programming vehicles and leads them to think about autonomous vehicles and all of the considerations that need to be made.

The Teacher guide is well-designed to help with setting up the code.Node. It helps with understanding the components of the kit and how to get students started. The student activities workbook provides a variety of lessons and learning opportunities for students to explore. I like how it explains concepts to students, gives them space to write and reflect, and various challenges to try to build their skills. The hands-on experiments are so valuable for students, and with everything provided in the kit, getting started was quite simple and not time-consuming.

Great resources for learning!

[Sample challenge in the student activities workbook]

There are activities like engineering turn signals and creating impact alert systems. These were exciting for students to learn about and enhanced their understanding of the science behind vehicle technology. Each activity is designed in alignment with science standards and helps to foster skills across different STEM disciplines, including data analysis, mathematics, and even language arts, as students share what they have learned and even present their findings to classmates.

[Sample pages in student activities workbook]

Taking the learning experience a step further, the //code.Node Cart transforms the //code.Node into a programmable vehicle sensing device. Students can replicate, program, and investigate automotive technology and learn about the work of engineers, which is a great way for students to explore potential careers and engage in authentic and meaningful learning!

Using the //code.Node Cart, students were able to simulate real-life engineering tasks, from programming turn signals to exploring the dynamics of crash tests. With the hands-on approach and the use of real-world scenarios, it also helps students to develop essential skills of problem-solving, creativity, collaboration and more while fostering a deeper understanding of both the technology and the engineering design process.

The Ease of Block-Based Coding with Blockly

Another great feature is its use of Blockly for coding. Coding can be scary for some, and getting started can be a challenge, depending on the type of coding program involved. However, with PASCO, the use of block-based programming language helps to simplify the coding process, which makes it more accessible for all students. By connecting visual blocks, students can build their skills in coding by first mastering programming basics without worrying about starting with something very complex. With this approach, students can shift their focus on the logic and problem-solving aspects of coding, which are crucial skills in demand in the world of work.

Engaging Activities and Real-world Applications

PASCO’s kit is full of activities that will boost student engagement as they learn about vehicle technology. Completing challenges such as engineering turn signals to designing crash test alert systems, each activity provides guidelines and support for students. The activities also promote cross-curricular connections, which is great for students to apply a variety of skill sets and knowledge in new ways. Also, the inclusion of video lessons, printed worksheets, and an interactive workbook or digital flipbook makes the learning process more student-led and accessible to all students.

What makes this unique is that students can work independently and collaboratively and have the activities book to guide their discoveries. It supports them as they work through each challenge and consider how to design their project, the coding needed, and the improvements that may need to be made, and then try again. It embraces the learning process rather than an end product. The students learn together how to improve and hopefully realize that there is always something different to try, a way to improve, and that making mistakes is fine because they are learning!

Preparing Students for the Future

Integrating activities like those in the Coding with Sensors Kit leads students to make real-world connections and understand automotive engineering and modern vehicle safety features. The code.Node kit not only educates but also hopefully sparks interest in students to consider exploring STEM-related careers, which are in demand. It makes the learning experience more relevant through real-world scenarios and applications, which shows students the impact they could make through skills in science and technology.

Learn more about the Coding with Sensors Kit and more great products from PASCO!

About the Author:

Rachelle Dené is a Spanish and STEAM: What’s Next in Emerging Technology Teacher at Riverview High School in Oakmont, PA. Rachelle is also an attorney with a Juris Doctor degree from Duquesne University School of Law and a Master’s in Instructional Technology. Rachelle is currently finishing her doctorate with a focus on AI and Professional Development. In addition to teaching, she is a full-time consultant and works with companies and organizations to provide PD, speaking, and consulting services. Contact Rachelle for your event!

Rachelle is an ISTE-certified educator and community leader and served as president of the ISTE Teacher Education Network. She was named one of 30 12 IT Influencers to follow in 2021 and one of 150 Women Global EdTech Thought Leaders in 2022.

She is the author of eight books including ‘In Other Words: Quotes That Push Our Thinking,” “Unconventional Ways to Thrive in EDU,” “The Future is Now: Looking Back to Move Ahead,” “Chart A New Course: A Guide to Teaching Essential Skills for Tomorrow’s World, “True Story: Lessons That One Kid Taught Us,” and her newest book “Things I Wish […] Knew” is now available at bit.ly/thingsiwishedu.

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

Join my show on THRIVEinEDU on Facebook. Join the group here

Digital Badging

Dr. Rachelle Dené Poth Leave a comment

Digital Badges & Micro-credentials: Being an Edtech Librarian in 2024

By Amanda Hunt aka @thenextgenlibrarian

These two concepts, badging, and education, play crucial roles in modern classrooms and libraries, bridging the gap between learning, recognition, and advocacy. In today’s rapidly evolving digital landscape, educators are not just running to catch up to new technologies; they’re becoming the pioneers and advocates for their integration into the classroom, library, and beyond. As traditional teaching methods intersect with innovative digital tools, educators are seizing the opportunity to become leaders in educational technology (EdTech). One notable trend in this realm is the rise of educators earning digital badges and ambassadorships from EdTech apps, websites, and more.

Digital badges have emerged as a means to recognize and showcase an individual’s skills and accomplishments in various fields, including education. By showcasing these badges, educators are putting their resumes in their email signatures. They are showing how they are still learning, usually on their own time, how to best take these new apps and bring them into the school buildings. Badges serve as virtual credentials, providing evidence of a teacher’s expertise in utilizing specific EdTech tools or implementing innovative teaching practices. The process of earning digital badges typically involves completing training modules, sharing lessons created using the tools, participating in workshops, or demonstrating proficiency in using a particular technology within an educational context.

Ambassadorships, on the other hand, involve a deeper level of engagement between educators and EdTech companies. Educator/Teacher ambassadors are selected representatives who possess in-depth knowledge of a company’s products or services and are passionate about integrating them effectively into teaching and learning environments. These ambassadors serve as advocates, sharing their experiences, insights, examples, and best practices with fellow educators, thereby fostering a community of learning and collaboration. A lot of times, they will present these tools in webinars, online, and in-person conferences.

What is the draw for educators to get certified in badges and earn ambassadorships? Firstly, in a rapidly digitizing world, staying abreast of the latest technological advancements is crucial for educators to deliver high-quality instruction. Many schools require teachers to use some form of technology in their classrooms. By having the librarian earn micro-credentials and badges through professional development training, they’re able to teach the teachers how to use the tools so they can use them in the classroom with students. By earning digital badges, educators demonstrate their commitment to training, growth, and improvement, as well as their willingness to adapt to new teaching methodologies. These badges also serve as a tangible record of their ongoing learning journey, which can be invaluable for career advancement and professional recognition.

Secondly, ambassadorships offer educators a platform to amplify their voices and influence within the EdTech community. Sometimes there’s even swag involved! As ambassadors, educators have the opportunity to network with industry professionals, participate in exclusive events and conferences, and contribute to the development and improvement of educational technologies. Moreover, serving as an ambassador allows educators to shape the direction of EdTech tools by providing feedback based on their practical experiences in the classroom.

Additionally, both digital badges and ambassadorships contribute to building a culture of collaboration and innovation within the education world. By sharing their knowledge and expertise, educators inspire their peers to explore new technologies and teaching methodologies, ultimately enhancing the learning experience for students. Moreover, the recognition and validation offered by digital badges and ambassadorships motivate educators to continuously seek out opportunities for professional growth and development. Too often these edtech companies don’t think as a teacher, but as a business owner. Asking for teacher input is critical for making their products successful, adaptable and future ready.

The increasing prevalence of educators earning digital badges and ambassadorships reflects a growing recognition of their pivotal role in driving innovation and transformation in education. Teachers and librarians want to be recognized for the work they’re doing and oftentimes, that’s not happening on their campuses. By leveraging these opportunities, educators can not only enhance their own professional development but also contribute to the broader goal of creating more engaging, inclusive, and effective learning environments for students around the world. As we continue to navigate the ever-changing landscape of educational technology, educators will undoubtedly remain at the forefront, shaping the future of teaching and learning. In the dynamic landscape of education, digital badges, and ambassadorships empower both learners and educators. Whether it’s recognizing discrete competencies or championing innovative tools, these concepts shape the future of teaching and learning.

Remember, every badge earned and every ambassadorship created contributes to a deeper, more connected educational ecosystem.

References:

Amanda Hunt, aka TheNextGenLibrarian, is a 6th-8th middle school librarian in New Braunfels ISD and is the Secondary Lead Librarian for NBISD. She’s been a librarian for twelve years at both elementary and secondary campuses. She was the chair for the Mavericks Graphic Novel Reading List Committee for TLA from 2021-2023. She was also the chair for TxASL Talks Editorial Board and presently is the TxASL Councilor through 2025. She also serves on the Conference Planning Committee for the TLA 2024 conference. Hunt is on the Bylaws Committee for TLA and the Operating Procedures Committee member for TxASL. She is on the AASL Committee for rewriting the new AASL Standards. Amanda has served on the Cybil Award YA Speculative Reading List Committee for 2023 and the Margaret Edwards 2025 Award Committee. She was a TLA TxASL Media and Visual Presence (MVP) Honoree for 2021 and 2023, and the TLA Branding Iron Award 2022 Winner for Digital Only Communications in a School Library. Amanda is a certified Apple Teacher and Apple Learning Coach, as well as a Google-certified Trainer and Coach. She has certifications in a variety of #edtech tools and is a voracious reader. Visit her linktree: http://bit.ly/biolinkthenextgenlibrarian and follow her across social media @thenextgenlibrarian

**Interested in writing a guest blog for my site? Would love to share your ideas! Submit your post here. Looking for a new book to read? Find these available at bit.ly/Pothbooks

************ Also check out my THRIVEinEDU Podcast Here!

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Fun Ideas As We Head Into Spring

Dr. Rachelle Dené Poth Leave a comment

It’s a busy time of year in our schools with assessments, sports, musicals, and other activities. I have often noticed a decrease in student engagement and often look for ways to create some excitement and get students more engaged and excited about learning. I think that this is the perfect time of year to try some new things and make time to ask students for feedback too. Also, once the school year ends, we have time to explore these new ideas and reflect on them.

Here are a few ideas that I have used in my own classroom. Some of these are great for getting your students up and moving and also for learning about emerging technologies like AR and VR! Active learning is great for students and for us, and it will help boost student engagement and lead to better content retention. Using a variety of strategies and trying different tools helps students develop the skills that they need to be successful now and in the future. Here are three to start with:

Augmented and Virtual Reality

Have you explored augmented or virtual reality in your classroom yet? If not, now is a great time! There are many options available, and the benefits are that students can be immersed in learning; they can hold and manipulate an object in augmented reality for example, and attach more meaning to it. Students can even create using a variety of the options available to bring their learning to life.

Besides having students create, they can explore through a virtual field trip to places they would not otherwise be able to visit, such as the bottom of the ocean or the surface of Mars. The use of VR for simulations for career exploration or science labs is a great way to engage students in more authentic and meaningful ways. Using AR or VR, students could create 3D models of objects, which they can then explore and manipulate. There are many tools available for students to create their own AR and VR experiences, which can be a great way to help them develop their creativity and problem-solving skills.

I started with the Virtual Reality trips available from Nearpod. Easy to get started with, and then you can add your own content and activities to the interactive lessons to engage students in a variety of learning experiences. CoSpaces EDU has been a great choice for my Spanish and STEAM classes. They have a library full of sample projects and lessons to download that make it easy to get started. Students also enjoy MergeVR, a holographic cube that enables them to hold and interact with different 3D objects in their hands. The Merge cube can be used with various apps, including Merge Explorer and Object Viewer, which allow students to create scenes and place objects in the real world.

Scavenger Hunts and Breakouts

There are a lot of benefits to creating a scavenger hunt. One of the most important skills that students can learn is teamwork. To successfully complete all of the tasks, students have to work together, share ideas, problem solve, be creative, and within a certain time limit. These valuable skills can be applied to many different areas of life.

The use of paper is fine, or you can explore different digital options such as Flip, Goose Chase, Padlet, or Wakelet. My friend Laura Steinbrink created a great scavenger hunt and used Wakelet to share it with students.

Digital breakouts are another great option for students and teachers, especially for professional development! Typically, a content-related theme is used for a hook. The purpose is to engage students in learning and help them connect with the content while boosting engagement. The theme also creates excitement for learning! Choosing tools such as Flip or Wakelet also makes great options for these.

Peer teaching

In my own classroom, to do some review at the start of the year, students are paired with a classmate and choose a topic that they feel confident teaching. Students come up with their own ways to teach or explain and then reverse roles. It is a great way for students to also build confidence and comfort in the classroom while building relationships. You can do this as an end-of-the-year review too!

I learned some fun new ideas that I could use in my practice. Students felt more valued because they took the lead and shared their knowledge to help others. They also appreciated the support that they received. Some students made games with Kahoot! or created a Nearpod or Edpuzzle lesson for classmates.

These are just a few ideas to explore that can help to boost student engagement and creativity. With the right methods and tools to facilitate them, we can spark curiosity for learning and all student needs and interests will be better met.

About the Author:

Rachelle Dené is a Spanish and STEAM: What’s Next in Emerging Technology Teacher at Riverview High School in Oakmont, PA. Rachelle is also an attorney with a Juris Doctor degree from Duquesne University School of Law and a Master’s in Instructional Technology. Rachelle is currently finishing her doctorate with a focus on AI and Professional Development. In addition to teaching, she is a full-time consultant and works with companies and organizations to provide PD, speaking, and consulting services. Contact Rachelle for your event!

Rachelle is an ISTE-certified educator and community leader and served as president of the ISTE Teacher Education Network. She was named one of 30 12 IT Influencers to follow in 2021 and one of 150 Women Global EdTech Thought Leaders in 2022.

She is the author of eight books including ‘In Other Words: Quotes That Push Our Thinking,” “Unconventional Ways to Thrive in EDU,” “The Future is Now: Looking Back to Move Ahead,” “Chart A New Course: A Guide to Teaching Essential Skills for Tomorrow’s World, “True Story: Lessons That One Kid Taught Us,” and her newest book “Things I Wish […] Knew” is now available at bit.ly/thingsiwishedu.

Contact Rachelle to schedule sessions about Artificial Intelligence, Coding, AR/VR, and more for your school or your event! Submit the Contact Form.

Follow Rachelle on Twitter(X) and Instagram at @Rdene915

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