Interactive Learning Methods

Explore top LinkedIn content from expert professionals.

  • View profile for Med Kharbach, PhD

    Educator and Researcher | Instructor @ MSVU

    50,230 followers

    AI Activities Guide for Teachers! This is a 40 page guide featuring hands-on AI activities organized by subject: social studies, math, language learning, and science. I also put together tables with over 70 AI tools sorted by subject, each with a practical description of what it actually does in that discipline. The activities come from real teachers, professional development sessions, and published research. Full source lists are included at the end. The guide is free under a Creative Commons license. Download it, share it, adapt it for your context. Link in the first comment! #AIinEducation #TeachingWithAI #EdTech #AILiteracy #GenerativeAI #AIPedagogy

  • View profile for SEEMAA YADAAV

    Science Education, Educational Technology

    226,865 followers

    Sometimes, the simplest tools create the strongest understanding — proving that we don’t always need technology to make maths meaningful. With just a handful of pebbles, students can learn counting, addition, subtraction, multiplication, division, patterns, factors, and even basic algebra. By arranging pebbles in groups or shapes, abstract concepts become visible and easy to understand. Unlike apps or screens, pebbles offer hands-on learning. Children can touch, move, and rearrange them, which strengthens conceptual clarity and memory. Maths becomes playful, practical, and engaging.

  • View profile for Afiya Mohammed BCBA, IBA

    15+ years In Helping Neurodivergent Families Tackle Daily Challenges | ABA clinical director |Organization Behaviour Management | Board Certified Behavior Analyst (BCBA) | Behavior Scientist

    20,099 followers

    Integrating play with structured learning is one of the most effective ways to engage young minds. This "Build a City" activity is a brilliant example of how simple materials like colorful building blocks can be transformed into a multi-sensory educational experience. By following the numbered sequence on the paper, children aren't just playing they are actively developing several critical foundational skills: • 🔢 Mathematical Literacy: Recognizing and ordering numbers to determine the height of each "building." • 🖐️ Fine Motor Development: The physical act of stacking blocks precisely helps build the hand-eye coordination necessary for writing. • 🧩 Spatial Awareness: Understanding scale, balance, and how individual units come together to create a larger structure. • 🧠 Cognitive Focus: Following a specific set of instructions to reach a clear, rewarding goal. As leaders and educators, we know that the most complex systems are often built from simple, well-executed foundations. When we make learning interactive and visual, we foster a natural curiosity that stays with a child long after the blocks are put away. ✨ Save this post to remind yourself that creative, hands-on activities are the building blocks of a child's future intellectual success. 🚀 Repost this if you’re committed to promoting innovative learning methods that keep children engaged and motivated. 💡 Follow Afiya Mohammed BCBA, IBA for more honest reflections on educational leadership, early childhood development, and finding motivation in the small wins.

  • View profile for Colleen Kelley, Ph.D.

    Chemist | TEDx Speaker | Emmy Award Winning Story | Creator and Founder of Kids’ Chemical Solutions | Author | U.S. Army Veteran

    19,538 followers

    Today in first grade, we worked with Rubik’s Cubes. 🧠🧩 Not as a puzzle to “solve,” but as a tool to train perception. The Perceptual Ability Test (PAT) on the Dental Admission Test (DAT) measures skills like: • mental rotation • spatial visualization • pattern recognition • understanding how 2-D views become 3-D objects These are the very same skills dentists rely on when reading radiographs, shaping restorations, visualizing anatomy, and working in tight, unseen spaces. And here’s the quiet truth: Those skills don’t suddenly appear in college. They’re built—slowly and playfully—over years. When first graders manipulate a Rubik’s Cube, they are: 🟦 rotating objects in space 🟨 tracking color relationships and symmetry 🟥 predicting outcomes before turning a face 🟩 holding multiple perspectives in working memory This is perceptual ability training, just without the pressure, test prep books, or timers. Why does this matter? Because spatial reasoning is one of the strongest predictors of success in: • dentistry • surgery • engineering • architecture • chemistry • and many technical health professions When we give young students opportunities to touch, turn, flip, and see structure—not just memorize facts—we are building future professionals long before they ever take an exam. First grade doesn’t look like DAT prep. But this? This is how it begins. #STEMEducation #SpatialReasoning #PerceptualAbility #DAT #FutureDentists #EarlyLearning #MolecularLiteracy #HandsOnLearning #FirstGradeScience

  • View profile for John Hedengren

    Professor

    24,485 followers

    🔬 New TCLab Worksheets: Hands-on Control Engineering Learning Released a new set of guided worksheets designed to help students build intuition in process dynamics and control through direct experimentation. These activities walk learners through four key steps in modern control engineering: 📈 Measure Temperature: Understand sensor characteristics, convert voltage to temperature, and reflect on error sources and calibration. ⚡ Dynamic Model Step Tests: Formulate energy balance equations, run step-response experiments, and extract gain, time constant, and dead time. 📊 Dynamic Model Regression: Collect heater–thermistor data, fit dynamic models to real data, and quantify model accuracy. ⚙️ PID Control: Implement, tune, and test PID controllers on a real two-heater system, then analyze closed-loop performance. Each worksheet includes objectives, structured tasks, and quick checklists to guide students from raw data collection to model validation and controller design, all within about an hour for each of the 4 activities. 💡 What is the TCLab? The Temperature Control Lab (TCLab) is a low-cost, USB-powered device with two heaters and two temperature sensors. It connects directly to Python or MATLAB / Simulink and allows students to run real-time experiments. Over 12,000 TCLabs are in use worldwide in university and industrial training labs to teach core skills in modeling, system identification, and control.

  • View profile for Katie Wrathall

    COO | Builder | Strategist | Scaling AI, Leaders, & Ideas That Move Markets

    11,893 followers

    The digital age of learning is here. But, does everything need to be on a screen? I disagree! Balance is key. While it is vital that we teach digital literacy, off-screen time is just as important. Kids should be reading, playing outside, and hands-on with learning. Here are 10 ideas for off-screen learning to mix up the day: 1. Take a library trip to let your child pick their own books 2. Use LEGOs to design a new machine to solve a problem 3. Follow a recipe to learn fractions while baking a yummy treat 4. Go outside and find a new bug or plant to research 5. Have your child draw a scribble on paper and write a creative backstory about it 6. Create an obstacle course using items around the house 7. Volunteer with a charity to learn about empathy and service 8. Take your child grocery shopping to learn math / budgeting skills 9. Look into free classes at the local library, museum, Kiwanis club, community center, etc. 10. Begin a new skill such as swimming, writing music, art, or riding a bike How do you get your kids off screens at home?

  • View profile for Angela Hines M.Ed, MS. Ed.

    Leadership | Human Services | Early Childhood & Family Systems | Motivational Interviewing | Training & Curriculum Design | Building Strong Teams That Change Lives

    4,724 followers

    Reaching Kinesthetic Learners in Early Childhood Education Some children learn best by listening. Some learn best by seeing. And some learn best by doing. Kinesthetic learners are children who learn through movement, touch, hands-on exploration, and physical experiences. They often struggle when expected to sit still for long periods, but thrive when learning involves action. The good news? Early childhood education is naturally suited for kinesthetic learning when we intentionally build movement into our teaching. What Does a Kinesthetic Learner Look Like? You may notice a child who: ✅ Learns better after physically trying something ✅ Enjoys building, manipulating, and creating ✅ Frequently moves while learning ✅ Uses gestures when explaining ideas ✅ Prefers hands-on materials over worksheets ✅ Remembers experiences better than verbal directions Rather than seeing movement as a distraction, we can view it as a pathway to learning. How Can We Adjust Our Teaching? Literacy Instead of: 📖 Sitting and tracing letters on paper. Try: ✋ Forming letters with playdough. ✋ Writing letters in sand, shaving cream, or paint. ✋ Creating giant letters with their bodies. ✋ Going on a letter hunt around the classroom. Math Instead of: ➕ Completing a worksheet. Try: 🧱 Counting blocks. 🧱 Jumping a number of times to represent quantities. 🧱 Sorting objects by size, color, or shape. 🧱 Building patterns with loose parts. Science Instead of: 🔬 Reading about a concept. Try: 🌱 Planting seeds. 🌱 Mixing materials and observing changes. 🌱 Exploring nature outdoors. 🌱 Conducting simple hands-on experiments. Social-Emotional Learning Instead of: 💬 Only discussing emotions. Try: ❤️ Acting out feelings. ❤️ Using movement games to practice self-regulation. ❤️ Role-playing social situations. ❤️ Creating calming stations with sensory materials. Story Time Instead of: 📚 Sitting and listening only. Try: 🎭 Acting out stories. 🎭 Using puppets. 🎭 Creating movement cues for story events. 🎭 Retelling stories through dramatic play. Why Does This Matter? Research tells us that learning becomes stronger when multiple parts of the brain are engaged. Movement increases attention, supports memory, strengthens neural connections, and helps children make meaning from their experiences. The goal is not to label children as one type of learner, but to recognize that some children need more opportunities to move, explore, manipulate, and experience concepts firsthand. When we combine visual, auditory, and kinesthetic approaches, we create classrooms where more children can succeed. The question isn’t, “How do I get children to sit still and learn?” The question is, “How can I help children learn while they move?” — Angela Hines, M.Ed., M.S. Ed. Statewide Behavioral Health Specialist 📧 angelaleehines@gmail.com 🔗 The Pedagogy Palace: https://lnkd.in/dbN4xvrm

  • View profile for Shonda Lankford Haynes, OTD, MS, MBA, MSFP, OTR/L

    Helping Schools & Clinics Build Compliant, Profitable Therapy Services ✅Systems & Compliance Consultant ✅Virtual & Hybrid Delivery Systems

    13,042 followers

    ✨Top Prewriting Activities to Build Fine Motor Skills in Kids✨ Building fine motor skills is essential for young children as they prepare for handwriting. Through targeted prewriting activities, we can help children develop the hand strength, coordination, and control needed to successfully hold a pencil and form letters. These activities not only enhance fine motor abilities but also lay a strong foundation for academic success. By engaging children in fun and creative tasks, we make learning these skills enjoyable and effective. Here are some top prewriting activities to build fine motor skills in kids: 1. Playing with Playdough ➣ Strengthens hand muscles through squeezing, rolling, and shaping. ➣ Improves finger coordination and promotes bilateral hand use. 2. Bead Stringing ➣ Enhances fine motor control by threading beads onto a string. ➣ Builds hand-eye coordination and focus on precise movements. 3. Tracing Lines and Shapes ➣ Encourages pencil control and familiarity with writing patterns. ➣ Develops hand stability and prepares kids for letter formation. 4. Lacing Cards ➣ Promotes fine motor precision by threading laces through holes. ➣ Improves bilateral hand use and coordination of movements. 5. Using Tongs or Tweezers ➣ Strengthens pincer grasp needed for holding writing utensils. ➣ Enhances control through picking up small objects carefully. 6. Drawing in Sand or Rice ➣ Engages hand muscles in controlled, creative movements. ➣ Encourages sensory exploration while practicing fine motor skills. 7. Scribbling with Crayons or Markers ➣ Helps children explore free movement and hand control. ➣ Builds hand strength and prepares for more structured writing. 8. Tearing Paper ➣ Strengthens hand muscles by ripping paper into pieces. ➣ Improves finger dexterity and control for future pencil grip. Incorporating prewriting activities is a crucial step in helping children build the fine motor skills they need for successful handwriting. By using fun, engaging tasks like playdough, bead stringing, and tracing, we can strengthen their hand muscles and improve coordination in a playful way. These activities lay a solid foundation for future writing skills, ensuring that children feel confident and prepared as they begin their handwriting journey. #OccupationalTherapy #OccupationalTherapist #WhyOT #OTMatters #OT #OTR #OTD #UnitedStatesOT

  • View profile for Danny Murphy

    Industrial Educator | Automation Engineer | A3 Educator of the Year 2024 🏆

    12,873 followers

    Hands-on challenges better prepare young engineers and techs! Before I became a #teacher, it used to be my responsibility to get a lot of new #engineers up to speed on the shop floor. I ran into the same deficiencies in new hires again and again. They didn't know how to read a BOM or assembly drawing, and perhaps most importantly, they didn't know how to think for themselves when faced with a #challenge. So obviously, I gave them a few assemblies of increasing complexity, and let them have fun building something without the added stress of watching over their shoulder. Then, I analyzed their work, gave them some helpful suggestions, and pointed out what they screwed up. After a few iterations you could quickly tell who was cut out for the job and who wasn't. Pretty simple, right? Well, it turns out that that's the best thing you can do to prepare #technical kids in the classroom. Give them a hands-on challenge, make them build it from a BOM, make it fun if you expect them to focus on it, and get out of the way. Here and there, poke your nose in, give a helpful suggestion, make a joke, and then let them get back to fighting it. They'll get frustrated sometimes, and you can take that chance to either encourage them or remind them life only gets worse, depending on your personal style. The companies that eventually #hire these young people will be forever grateful you sent them someone who knows how to think! Take a look into your students' eyes. If they look like they're about to pass out from boredom, you're doing it wrong. Were you ever bored out of your mind in a #classroom? Tell us some exercises you think would be especially useful! Central Virginia Community College VEX Robotics A3 - Association for Advancing Automation

  • View profile for Kenny Peavy

    Educator and author

    4,112 followers

    Learning with Soil: Hands-On Activities for Regenerative Education Soil is more than just the ground we walk on—it’s a living system that sustains life! Engaging children with soil through play and exploration helps them develop a deep respect for the earth. Here are some hands-on activities to bring regenerative education to life: 🌱 Soil Safari – Dig into the ground and observe what’s living beneath! Use magnifying glasses to find decomposers like earthworms, beetles, and fungi. Discuss their role in nutrient cycles. 🌿 Mud Brick Making – Mix soil, water, and natural fibers to create sun-dried bricks. Learn about traditional building techniques and sustainable architecture. 🍂 Compost in a Jar – Layer food scraps, leaves, and soil in a jar to watch decomposition in action. Observe how microbes break down organic matter into nutrient-rich compost. 💦 Soil Erosion Experiment – Compare how water flows through bare soil vs. planted soil. Discuss how roots help prevent erosion and why healthy soil matters. 🎨 Mud Art & Natural Pigments – Use different soil types to create paints and dyes. Discover how ancient cultures used soil-based pigments for storytelling. 🌾 Seed Bombs – Mix clay, compost, and native seeds to create seed balls. Toss them into neglected areas to promote biodiversity and soil restoration. Through play, observation, and creativity, children learn that soil isn’t just dirt—it’s the foundation of life! How do you explore soil in your learning spaces? #RegenerativeEducation #SoilIsLife #HandsOnLearning #NatureBasedEducation #PlaceBasedLearning

    • +2

Explore categories