Tag: best

  • Why empowering students sets the best course for future success

    Why empowering students sets the best course for future success

    Key points:

    When middle school students make the leap to high school, they are expected to have a career path in mind so their classes and goals align with their future plans. That’s a tremendous ask of a teenager who is unaware of the opportunities that await them–and emerging careers that have yet to exist.

    Mentors, parents, and educators spend so much time urging students to focus on their future that we do them a disservice by distracting them from their present–their passions, their interests, their hobbies. This self-discovery, combined with exposure to various career fields, fuels students’ motivation and serves as a guidebook for their professional journey.

    To meet their mission of directing every student toward an individualized post-secondary plan, schools need to prioritize recognizing each student’s lifestyle goals. That way, our kids can find their best-fit career and develop greater self-awareness of their own identity.

    Give students greater autonomy over their career exploration

    The most problematic aspect of traditional career-readiness programs is that they’re bound so tightly to the classes in which a student excels.

    For example, a high schooler on a technology track might be assigned an engineer as a mentor. However, that same student may also possess a love for writing, but because their core classes are science-based, they may never learn how to turn that passion into a career in the engineering field, whether as a UX writer, technical editor, or tech journalist. 

    Schools have the opportunity to help students identify their desired lifestyle, existing strengths, and possible career paths. In Aurora Public Schools in Nebraska, the district partnered with our company, Find Your Grind, an ESSA Tier 2 validated career exploration program, to guide students through a Lifestyle Assessment, enabling them to discover who they are now and who they want to become. Through this approach, teachers helped surface personalized careers, mentors, and pathway courses that aligned with students’ lifestyle goals.

    Meanwhile, in Ohio, school districts launched Lifestyle Fairs, immersive, future-ready events designed to introduce students to real-world career experiences, industry mentors, and interactive learning grounded in self-discovery. Hilliard City Schools, for example, welcomed more than seventh-grade students to a Lifestyle Fair this past May

    Rather than rely on a conventional booth-style setup, Hilliard offered interactive activations that centered on 16 lifestyle archetypes, including Competitor, Explorer, Connector, and Entrepreneur. The stations allowed students to engage with various industry leaders and participate in hands-on activities, including rocket launch simulations and creative design challenges, to ignite their curiosity. Following the Fair, educators reported increased student engagement and a renewed enthusiasm for learning about potential career paths.

    Create a fluidity path for future success

    According to the World Economic Forum, by 2030, 97 million jobs will be displaced by AI, significantly impacting lower-wage earners and workers of color. At the same time, 170 million new jobs are expected to be created, especially in emerging fields. By providing students more freedom in their career exploration, educators can help them adapt to this ever-changing 21st-century job market.

    Now is the time for school districts to ensure all students have access to equitable career planning programs and work to close societal disparities that hinder professional opportunities. Instead of setting students on a predetermined pathway toward a particular field–which may or may not exist a decade from now–educators must equip them with future-proof and transferable core skills, including flexibility, initiative, and productivity, in addition to job-specific skills. As the job market shifts, students will be prepared to change direction, switch jobs, and pivot between careers. 

    In Hawaii, students are taking advantage of career exploration curriculum that aligns with 21st-century career and technical education (CTE) frameworks. They are better prepared to complete their Personal Transition Plans, which are required for graduation by the state, and have access to micro-credentials that give them real-world experience in different industries rather than one particular field.

    For decades, career planning has placed students in boxes, based on what the adults in their lives expect of them. Ensuring every child reaches their full professional potential means breaking down the barriers that have been set up around them and allowing them to be at the center of their own career journey. When students are empowered to discover who they are and where they want to be, they are excited to explore all the incredible opportunities available to them. 

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  • Why early STEAM education unlocks the future for all learners

    Why early STEAM education unlocks the future for all learners

    Key points:

    When we imagine the future of America’s workforce, we often picture engineers, coders, scientists, and innovators tackling the challenges of tomorrow. However, the truth is that a student’s future does not begin in a college classroom, or even in high school–it starts in the earliest years of a child’s education.

    Early exposure to science, technology, engineering, arts, and mathematics (STEAM) builds the foundation for critical thinking, collaboration, and creativity. Research indicates that children introduced to STEAM concepts before the age of eight are significantly more likely to pursue STEM-related fields later in life. Yet for too many children, especially neurodivergent learners and those in underserved communities, STEAM education comes too late or not at all. That gap represents a missed opportunity not only for those children, but also for the industries and communities that will rely on their talents in the future.

    The missed opportunity in early education

    In most school systems, STEAM instruction ramps up in middle school or high school, long after the formative years when children are naturally most curious and open to exploring. By waiting until later grades, we miss the chance to harness early curiosity, which is the spark that drives innovation.

    This late introduction disproportionately affects children with disabilities or learning differences. These learners often benefit from structured, hands-on exploration and thrive when provided with tools to connect abstract concepts to real-world applications. Without early access, they may struggle to build confidence or see themselves as capable contributors to fields like aerospace, technology, or engineering. If STEAM employers fail to cultivate neurodivergent learners, they miss out on theirunique problem-solving skills, specialized strengths, and diverse thinking that drives true innovation. Beyond shrinking the talent pipeline, this oversight risks stalling progress in fields like aerospace, energy, and technology while weakening their competitive edge.

    The result is a long-term underrepresentation of neurodivergent individuals in high-demand, high-paying fields. Without access to an early STEAM curriculum, both neurodivergent students and employers will miss opportunities for advancement.

    Why neurodivergent learners benefit most

    Neurodivergent learners, such as children with autism, ADHD, or dyslexia, often excel when lessons are tactile, visual, and inquiry-based. Early STEAM education naturally aligns with these learning styles. For example, building a simple bridge with blocks is more than play; it’s an exercise in engineering, problem-solving, and teamwork. Programming a toy robot introduces logic, sequencing, and cause-and-effect.

    These types of early STEAM experiences also support executive functioning, improve social-emotional development, and build persistence. These are crucial skills in STEM careers, where theories often fail, and continued experimentation is necessary. Additionally, building these skills helps children see themselves as creators and innovators rather than passive participants in their education.

    When neurodivergent children are given access to STEAM at an early age, they are not only better equipped academically but also more confident in their ability to belong in spaces that have traditionally excluded them.

    Houston as a case study

    Here in Houston, we recognize the importance of early STEAM education in shaping our collective future. As the world’s Energy Capital and a hub for aerospace innovation, Houston’s economy will continue to rely on the next generation of thinkers, builders and problem-solvers. That pipeline begins not in a university laboratory, but in preschool classrooms and afterschool programs.

    At Collaborative for Children, we’ve seen this firsthand through our Collab-Lab, a mobile classroom that brings hands-on STEAM experiences to underserved neighborhoods. In these spaces, children experiment with coding, explore engineering principles, and engage in collaborative problem-solving long before they reach middle school. For neurodivergent learners in particular, the Collab-Lab provides an environment where curiosity is encouraged, mistakes are celebrated as part of the learning process, and every child has the chance to succeed. Additionally, we are equipping the teachers in our 125 Centers of Excellence throughout the city in practical teaching modalities for neurodivergent learners. We are committed to creating equal opportunity for all students.

    Our approach demonstrates what is possible when early childhood education is viewed not just as childcare, but as workforce development. If we can prioritize early STEAM access in Houston, other cities across the country can also expand access for all students.

    A national priority

    To prepare America’s workforce for the challenges ahead, we must treat early STEAM education as a national priority. This requires policymakers, educators and industry leaders to collaborate in new and meaningful ways.

    Here are three critical steps we must take:

    1. Expand funding and resources for early STEAM curriculum. Every preschool and early elementary program should have access to inquiry-based materials that spark curiosity in young learners.
    2. Ensure inclusion of neurodivergent learners in program design. Curricula and classrooms must reflect diverse learning needs so that all children, regardless of ability, have the opportunity to engage fully.
    3. Forge stronger partnerships between early education and industry. Employers in aerospace, energy, and technology should see investment in early childhood STEAM as part of their long-term workforce strategy.

    The stakes are high. If we delay STEAM learning until later grades, we risk leaving behind countless children and narrowing the talent pipeline that will fuel our nation’s most critical industries. But if we act early, we unlock not just potential careers, but potential lives filled with confidence, creativity and contribution.

    Closing thoughts

    The innovators of tomorrow are sitting in preschool classrooms today. They are building with blocks, asking “why,” and imagining worlds we cannot yet see. Among them are children who are neurodivergent–who, with the proper support, may go on to design spacecrafts, engineer renewable energy solutions, or code the next groundbreaking technology.

    If we want a future that is diverse, inclusive, and innovative, the path is clear: We must start with STEAM education in the earliest years, for every child.

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  • ACT and Texas Instruments Collaborate to Enhance Student Success in Mathematics

    ACT and Texas Instruments Collaborate to Enhance Student Success in Mathematics

    Iowa City, Iowa and Dallas, Texas (November 12, 2025) – ACT, a leader in college and career readiness assessment, and Texas Instruments Education Technology (TI), a division of the global semiconductor company, today announced a comprehensive partnership aimed at empowering students to achieve their best performance on the ACT mathematics test.

    This initiative brings together two education leaders to provide innovative resources and tools that maximize student potential. The partnership will start by providing:

    • A new dedicated online resource center featuring co-branded instructional videos demonstrating optimal use of TI calculators during the ACT mathematics test.
    • Additional study materials featuring TI calculators to help students build upon and apply their mathematical knowledge while maximizing their time on the ACT test.
    • Professional development programs for teachers focused on effective calculator-based testing strategies.

    “This partnership represents our commitment to providing students with the tools and resources they need to demonstrate their mathematical knowledge effectively,” said Andrew Taylor, Senior Vice President of Educational Solutions and International, ACT, “By working with Texas Instruments, we’re ensuring students have access to familiar, powerful technology tools during this important assessment.”

    “Texas Instruments is proud to partner with ACT to support student success,” said Laura Chambers, President at Texas Instruments Education Technology. “Our calculator technology, combined with targeted instructional resources, will help students showcase their true mathematical abilities during the ACT test.” 

    The new resources are available now to students and educators on the ACT website www.act.org under ACT Math Calculator Tips.

    About ACT

    ACT is transforming college and career readiness pathways so that everyone can discover and fulfill their potential. Grounded in more than 65 years of research, ACT’s learning resources, assessments, research, and work-ready credentials are trusted by students, job seekers, educators, schools, government agencies, and employers in the U.S. and around the world to help people achieve their education and career goals at every stage of life. Visit us at https://www.act.org/.  

    About Texas Instruments

    Texas Instruments Education Technology (TI) — the gold standard for excellence in math — provides exam-approved graphing calculators and interactive STEM technology. TI calculators and accessories drive student understanding and engagement without adding to online distractions. We are committed to empowering teachers, inspiring students and supporting real learning in classrooms everywhere. For more information, visit education.ti.com.

    Texas Instruments Incorporated (Nasdaq: TXN) is a global semiconductor company that designs, manufactures and sells analog and embedded processing chips for markets such as industrial, automotive, personal electronics, enterprise systems and communications equipment. At our core, we have a passion to create a better world by making electronics more affordable through semiconductors. This passion is alive today as each generation of innovation builds upon the last to make our technology more reliable, more affordable and lower power, making it possible for semiconductors to go into electronics everywhere. Learn more at TI.com.

    eSchool News Staff
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  • Why busy educators need AI with guardrails

    Why busy educators need AI with guardrails

    Key points:

    In the growing conversation around AI in education, speed and efficiency often take center stage, but that focus can tempt busy educators to use what’s fast rather than what’s best. To truly serve teachers–and above all, students–AI must be built with intention and clear constraints that prioritize instructional quality, ensuring efficiency never comes at the expense of what learners need most.

    AI doesn’t inherently understand fairness, instructional nuance, or educational standards. It mirrors its training and guidance, usually as a capable generalist rather than a specialist. Without deliberate design, AI can produce content that’s misaligned or confusing. In education, fairness means an assessment measures only the intended skill and does so comparably for students from different backgrounds, languages, and abilities–without hidden barriers unrelated to what’s being assessed. Effective AI systems in schools need embedded controls to avoid construct‑irrelevant content: elements that distract from what’s actually being measured.

    For example, a math question shouldn’t hinge on dense prose, niche sports knowledge, or culturally-specific idioms unless those are part of the goal; visuals shouldn’t rely on low-contrast colors that are hard to see; audio shouldn’t assume a single accent; and timing shouldn’t penalize students if speed isn’t the construct.

    To improve fairness and accuracy in assessments:

    • Avoid construct-irrelevant content: Ensure test questions focus only on the skills and knowledge being assessed.
    • Use AI tools with built-in fairness controls: Generic AI models may not inherently understand fairness; choose tools designed specifically for educational contexts.
    • Train AI on expert-authored content: AI is only as fair and accurate as the data and expertise it’s trained on. Use models built with input from experienced educators and psychometricians.

    These subtleties matter. General-purpose AI tools, left untuned, often miss them.

    The risk of relying on convenience

    Educators face immense time pressures. It’s tempting to use AI to quickly generate assessments or learning materials. But speed can obscure deeper issues. A question might look fine on the surface but fail to meet cognitive complexity standards or align with curriculum goals. These aren’t always easy problems to spot, but they can impact student learning.

    To choose the right AI tools:

    • Select domain-specific AI over general models: Tools tailored for education are more likely to produce pedagogically-sound and standards-aligned content that empowers students to succeed. In a 2024 University of Pennsylvania study, students using a customized AI tutor scored 127 percent higher on practice problems than those without.
    • Be cautious with out-of-the-box AI: Without expertise, educators may struggle to critique or validate AI-generated content, risking poor-quality assessments.
    • Understand the limitations of general AI: While capable of generating content, general models may lack depth in educational theory and assessment design.

    General AI tools can get you 60 percent of the way there. But that last 40 percent is the part that ensures quality, fairness, and educational value. This requires expertise to get right. That’s where structured, guided AI becomes essential.

    Building AI that thinks like an educator

    Developing AI for education requires close collaboration with psychometricians and subject matter experts to shape how the system behaves. This helps ensure it produces content that’s not just technically correct, but pedagogically sound.

    To ensure quality in AI-generated content:

    • Involve experts in the development process: Psychometricians and educators should review AI outputs to ensure alignment with learning goals and standards.
    • Use manual review cycles: Unlike benchmark-driven models, educational AI requires human evaluation to validate quality and relevance.
    • Focus on cognitive complexity: Design assessments with varied difficulty levels and ensure they measure intended constructs.

    This process is iterative and manual. It’s grounded in real-world educational standards, not just benchmark scores.

    Personalization needs structure

    AI’s ability to personalize learning is promising. But without structure, personalization can lead students off track. AI might guide learners toward content that’s irrelevant or misaligned with their goals. That’s why personalization must be paired with oversight and intentional design.

    To harness personalization responsibly:

    • Let experts set goals and guardrails: Define standards, scope and sequence, and success criteria; AI adapts within those boundaries.
    • Use AI for diagnostics and drafting, not decisions: Have it flag gaps, suggest resources, and generate practice, while educators curate and approve.
    • Preserve curricular coherence: Keep prerequisites, spacing, and transfer in view so learners don’t drift into content that’s engaging but misaligned.
    • Support educator literacy in AI: Professional development is key to helping teachers use AI effectively and responsibly.

    It’s not enough to adapt–the adaptation must be meaningful and educationally coherent.

    AI can accelerate content creation and internal workflows. But speed alone isn’t a virtue. Without scrutiny, fast outputs can compromise quality.

    To maintain efficiency and innovation:

    • Use AI to streamline internal processes: Beyond student-facing tools, AI can help educators and institutions build resources faster and more efficiently.
    • Maintain high standards despite automation: Even as AI accelerates content creation, human oversight is essential to uphold educational quality.

    Responsible use of AI requires processes that ensure every AI-generated item is part of a system designed to uphold educational integrity.

    An effective approach to AI in education is driven by concern–not fear, but responsibility. Educators are doing their best under challenging conditions, and the goal should be building AI tools that support their work.

    When frameworks and safeguards are built-in, what reaches students is more likely to be accurate, fair, and aligned with learning goals.

    In education, trust is foundational. And trust in AI starts with thoughtful design, expert oversight, and a deep respect for the work educators do every day.

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  • Is gamification the key to achieving true inclusion in special education?

    Is gamification the key to achieving true inclusion in special education?

    Key points:

    For students with special needs, learning can often resemble a trek through dense woods along a narrow, rigid path–one that leaves little to no room for individual exploration. But the educational landscape is evolving. Picture classrooms as adventurous hunts, where every learner charts their own journey, overcomes unique challenges, and progresses at a pace that matches their strengths. This vision is becoming reality through gamification, a powerful force that is reshaping how students learn and how teachers teach in K–12 special education.

    Personalized learning paths: Tailoring the adventure

    Traditional classrooms often require students to adapt one method of instruction, which can be limiting–especially for neurodiverse learners. Gamified learning platforms provide an alternative by offering adaptive, personalized learning experiences that honor each student’s profile and pace.

    Many of these platforms use real-time data and algorithms to adjust content based on performance. A student with reading difficulties might receive simplified text with audio support, while a math-savvy learner can engage in increasingly complex logic puzzles. This flexibility allows students to move forward without fear of being left behind, or without being bored waiting for others to catch up.

    Accessibility features such as customizable avatars, voice commands, and adjustable visual settings also create space for students with ADHD, autism, or sensory sensitivities to learn comfortably. A student sensitive to bright colors can use a softer palette; another who struggles with reading can use text-to-speech features. And when students can replay challenges without stigma, repetition becomes practice, not punishment.

    In these environments, progress is measured individually. The ability to choose which goals to tackle and how to approach them gives learners both agency and confidence–two things often missing in traditional special education settings.

    Building social and emotional skills: The power of play

    Play is a break from traditional learning and a powerful way to build essential social and emotional skills. For students with special needs who may face challenges with communication, emotional regulation, or peer interaction, gamified environments provide a structured yet flexible space to develop these abilities.

    In cooperative hunts and team challenges, students practice empathy, communication, and collaboration in ways that feel engaging and low-stakes. A group mission might involve solving a puzzle together, requiring students to share ideas, encourage one another, and work toward a common goal.

    Gamified platforms also provide real-time, constructive feedback, transforming setbacks into teachable moments. Instead of pointing out what a student did wrong, a game might offer a helpful hint: “Try checking the clues again!” This kind of support teaches resilience and persistence in a way that lectures or punitive grading rarely do.

    As students earn badges or level up, they experience tangible success. These moments highlight the connection between effort and achievement. Over time, these small wins raise a greater willingness to engage with the material and with peers and the classroom community.

    Fostering independence and motivation

    Students with learning differences often carry the weight of repeated academic failure, which can chip away at their motivation. Gamification helps reverse this by reframing challenges as opportunities and effort as progress.

    Badges, points, and levels make achievements visible and meaningful. A student might earn a “Problem Solver” badge after tackling a tricky math puzzle or receive “Teamwork Tokens” for helping a classmate. These systems expand the definition of success and highlight personal strengths.

    The focus shifts from comparison to self-improvement. Some platforms even allow for private progress tracking, letting students set and meet personal goals without the anxiety of public rankings. Instead of competing, students build a personal narrative of growth.

    Gamification also encourages self-directed learning. As student complete tasks, they develop skills like planning, time management, and self-assessment, skills that extend beyond academics and into real life. The result is a deeper sense of ownership and independence.

    Teachers as learning guides

    Gamification doesn’t replace teachers, but it can help teach more effectively. With access to real-time analytics, educators can see exactly where a student is excelling or struggling and adjust instruction accordingly.

    Dashboards might reveal that a group of students is thriving in reading comprehension but needs help with number sense, prompting immediate, targeted intervention. This data-driven insight allows for proactive, personalized support.

    Teachers in gamified classrooms also take on a new role, both of a mentor and facilitator. They curate learning experiences, encourage exploration, and create opportunities for creativity and curiosity to thrive. Instead of managing behavior or delivering lectures, they support students on individualized learning journeys.

    Inclusion reimagined

    Gamification is not a gimmick; it’s a framework for true inclusion. It aligns with the principles of Universal Design for Learning (UDL), offering multiple ways for students to engage, process information, and show what they know. It recognizes that every learner is different, and builds that into the design.

    Of course, not every gamified tool is created equal. Thoughtful implementation, equity in access, and alignment with student goals are essential. But when used intentionally, gamification can turn classrooms into places where students with diverse needs feel seen, supported, and excited to learn.

    Are we ready to level up?

    Gamification is a step toward classrooms that work for everyone. For students with special needs, it means learning at their own pace, discovering their strengths, and building confidence through meaningful challenges.

    For teachers, it’s a shift from directing traffic to guiding adventurers.

    If we want education to be truly inclusive, we must go beyond accommodations and build systems where diversity is accepted and celebrated. And maybe, just maybe, that journey begins with a game.

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  • 4 ways to transform your classroom through playful gamification 

    4 ways to transform your classroom through playful gamification 

    Key points:

    Every educator hopes to instill a lifelong love of learning within their students. We strive to make each lesson engaging, while igniting a sense of curiosity, wonder, and discovery in every child.

    Unfortunately, we don’t always succeed, and recent reports suggest that today’s students are struggling to connect with the material they’re taught in school–particularly when it comes to STEM. While there are many potential culprits behind these numbers (shortened attention spans, the presence of phones, dependency on AI, etc.), educators should still take a moment to reflect and strategize when preparing a new lesson for their class. If we truly want to foster a growth mindset within our students, we need to provide lessons that invite them to embrace the learning process itself.

    One way to accomplish this is through gamification. Gamification brings the motivational elements of games into your everyday lessons. It increases student engagement, builds perseverance, and promotes a growth mindset. When used strategically, it helps learners take ownership of their progress and encourages creativity and collaboration without sacrificing academic rigor.

    Here are just 4 ways that educators can transform their classroom through playful gamification:

    1. Introduce points and badges: Modern video games like Pokémon and Minecraft frequently use achievements to guide new players through the gaming process. Teachers can do the same by assigning points to different activities that students can acquire throughout the week. These experience points can also double as currency that students can exchange for small rewards, such as extra free time or an end-of-year pizza party.
    2. Create choice boards: Choice boards provide students with a range of task options, each with a point value or challenge level. You can assign themes or badges for completing tasks in a certain sequence (e.g., “complete a column” or “complete one of each difficulty level”). This allows students to take ownership of their learning path and pace, while still hitting key learning targets.
    3. Host a digital breakout: Virtual escape rooms and digital breakouts are great for fostering engagement and getting students to think outside the box. By challenging students to solve content-based puzzles to unlock “locks” or progress through scenarios, they’re encouraged to think creatively while also collaborating with their peers. They’re the ideal activity for reviewing classwork and reinforcing key concepts across subjects.
    4. Boss battle assessments: This gamified review activity has students “battle” a fictional character by answering questions or completing tasks. Each correct response helps them defeat the boss, which can be tracked with points, health bars, or progress meters. This engaging format turns practice into a collaborative challenge, building excitement and reinforcing content mastery.

    When implemented correctly, gamification can be incredibly fun and rewarding for our students. With the fall semester drawing closer, there has never been a better time to prepare lessons that will spark student curiosity, creativity, and critical thinking.

    We can show our students that STEM learning is not a chore, but a gateway to discovery and excitement. So, get your pencils ready, and let the games begin.

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  • 4 ways AI is empowering the next generation of great teachers

    4 ways AI is empowering the next generation of great teachers

    Key points:

    In education, we often talk about “meeting the moment.” Our current moment presents us with both a challenge and an opportunity: How can we best prepare and support our teachers as they navigate increasingly complex classrooms while also dealing with unprecedented burnout and shortages within the profession?

    One answer could lie in the thoughtful integration of artificial intelligence to help share feedback with educators during training. Timely, actionable feedback can support teacher development and self-efficacy, which is an educator’s belief that they will make a positive impact on student learning. Research shows that self-efficacy, in turn, reduces burnout, increases job satisfaction, and supports student achievement. 

    As someone who has spent nearly two decades supporting new teachers, I’ve witnessed firsthand how practical feedback delivered quickly and efficiently can transform teaching practice, improve self-efficacy, and support teacher retention and student learning.

    AI gives us the chance to deliver this feedback faster and at scale.

    A crisis demanding new solutions

    Teacher shortages continue to reach critical levels across the country, with burnout cited as a primary factor. A recent University of Missouri study found that 78 percent of public school teachers have considered quitting their profession since the pandemic. 

    Many educators feel overwhelmed and under-supported, particularly in their formative years. This crisis demands innovative solutions that address both the quality and sustainability of teaching careers.

    What’s often missing in teacher development and training programs is the same element that drives improvement in other high-performance fields: immediate, data-driven feedback. While surgeons review recordings of procedures and athletes get to analyze game footage, teachers often receive subjective observations weeks after teaching a lesson, if they receive feedback at all. Giving teachers the ability to efficiently reflect on AI-generated feedback–instead of examining hours of footage–will save time and potentially help reduce burnout.

    The transformative potential of AI-enhanced feedback

    Recently, Relay Graduate School of Education completed a pilot program with TeachFX using AI-powered feedback tools that showed remarkable promise for our teacher prep work. Our cohort of first- and second-year teachers more than doubled student response opportunities, improved their use of wait time, and asked more open-ended questions. Relay also gained access to objective data on student and teacher talk time, which enhanced our faculty’s coaching sessions.

    Program participants described the experience as “transformative,” and most importantly, they found the tools both accessible and effective.

    Here are four ways AI can support teacher preparation through effective feedback:

    1. Improving student engagement through real-time feedback

    Research reveals that teachers typically dominate classroom discourse, speaking for 70-80 percent of class time. This imbalance leaves little room for student voices and engagement. AI tools can track metrics such as student-versus-teacher talk time in real time, helping educators identify patterns and adjust their instruction to create more interactive, student-centered classrooms.

    One participant in the TeachFX pilot said, “I was surprised to learn that I engage my students more than I thought. The data helped me build on what was working and identify opportunities for deeper student discourse.”

    2. Freeing up faculty to focus on high-impact coaching

    AI can generate detailed transcripts and visualize classroom interactions, allowing teachers to reflect independently on their practice. This continuous feedback loop accelerates growth without adding to workloads.

    For faculty, the impact is equally powerful. In our recent pilot with TeachFX, grading time on formative observation assignments dropped by 60 percent, saving up to 30 hours per term. This reclaimed time was redirected to what matters most: meaningful mentoring and modeling of best practices with aspiring teachers.

    With AI handling routine analysis, faculty could consider full class sessions rather than brief segments, identifying strategic moments throughout lessons for targeted coaching. 

    The human touch remains essential, but AI amplifies its reach and impact.

    3. Scaling high-quality feedback across programs

    What began as a small experiment has grown to include nearly 800 aspiring teachers. This scalability can more quickly reduce equity issues in teacher preparation.

    Whether a teaching candidate is placed in a rural school or urban district, AI can ensure consistent access to meaningful, personalized feedback. This scalable approach helps reduce the geographic disparities that often plague teacher development programs.

    Although AI output must be checked so that any potential biases that come through from the underlying datasets can be removed, AI tools also show promise for reducing bias when used thoughtfully. For example, AI can provide concrete analysis of classroom dynamics based on observable actions such as talk time, wait time, and types of questions asked. While human review and interpretation remains essential–to spot check for AI hallucinations or other inaccuracies and interpret patterns in context–purpose-built tools with appropriate guardrails can help deliver more equitable support.

    4. Helping teachers recognize and build on their strengths

    Harvard researchers found that while AI tools excel at using supportive language to appreciate classroom projects–and recognize the work that goes into each project–students who self-reported high levels of stress or low levels of enjoyment said the feedback was often unhelpful or insensitive. We must be thoughtful and intentional about the AI-powered feedback we share with students.

    AI can also help teachers see what they themselves are doing well, which is something many educators struggle with. This strength-based approach builds confidence and resilience. As one TeachFX pilot participant noted, “I was surprised at the focus on my strengths as well and how to improve on them. I think it did a good job of getting good details on my conversation and the intent behind it. ”

    I often tell new teachers: “You’ll never see me teach a perfect lesson because perfect lessons don’t exist. I strive to improve each time I teach, and those incremental gains add up for students.” AI helps teachers embrace this growth mindset by making improvement tangible and achievable.

    The moment is now

    The current teacher shortage is a crisis, but it’s also an opportunity to reimagine how we support teachers.

    Every student deserves a teacher who knows how to meaningfully engage them. And every teacher deserves timely, actionable feedback.  The moment to shape AI’s role in teacher preparation is now. Let’s leverage these tools to help develop confident, effective teachers who will inspire the next generation of learners.

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  • K12 Earns High Marks for Excellence in Online Public Education

    K12 Earns High Marks for Excellence in Online Public Education

    RESTON, Va.(GLOBE NEWSWIRE) — K12, a portfolio brand of Stride, Inc. has been recognized for its steadfast commitment to quality education. In a recent review by Cognia, a global nonprofit that accredits schools, K12 earned an impressive Index of Education Quality (IEQ) score of 327, well above the global average of 296. Cognia praised K12 for creating supportive environments where students are encouraged to learn and grow in ways that work best for them. 

    For over 25 years, K12 has been a pioneer in online public education, delivering flexible, high-quality learning experiences to families across the country. Having served more than 3 million students, K12 has helped shape the future of personalized learning. This long-standing presence in the field reflects a deep understanding of what families need from a modern education partner. The recent Cognia review further validates K12’s role as a trusted provider, recognizing the strength of its learning environments and its commitment to serving all students. 

    “What stood out in this review is how clearly our learning environments are working for students,” said Niyoka McCoy, Chief Learning Officer at Stride, Inc. “From personalized graduation plans to real-time feedback tools and expanded course options, the Cognia team saw what we see every day, which is students being supported in ways that help them grow, stay engaged, and take ownership of their learning.” 

    K12’s impact extends well beyond the virtual classroom. In 2025, the organization was honored with two Gold Stevie® Awards for Innovation in Education and recognized at the Digital Education Awards for its excellence in digital learning. These awards highlight K12’s continued leadership in delivering meaningful, future-focused education. What sets K12-powered online public schools apart is a curriculum that goes beyond the basics, offering students access to STEM, Advanced Placement, dual-credit, industry certifications, and gamified learning experiences. K12’s program is designed to spark curiosity, build confidence, and help students thrive in college, careers, and life. 

    Through student-centered instruction and personalized support, K12 is leading the way in modern education. As the learning landscape evolves, K12 adapts alongside it, meeting the needs of today’s students while shaping the future of education. 

    To learn more about K12 and its accredited programs, visit k12.com.

    About Stride, Inc.  

    Stride Inc. (LRN) is redefining lifelong learning with innovative, high-quality education solutions. Serving learners in primary, secondary, and postsecondary settings, Stride provides a wide range of services including K-12 education, career learning, professional skills training, and talent development. Stride reaches learners in all 50 states and over 100 countries. Learn more at Stridelearning.com.

    eSchool News Staff
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  • Empowering neurodiverse learners with AI-driven solutions

    Empowering neurodiverse learners with AI-driven solutions

    Key points:

    A traditional classroom is like a symphony, where every student is handed the same sheet music and expected to play in perfect unison. But neurodiverse learners are not able to hear the same rhythm–or even the same notes. For them, learning can feel like trying to play an instrument that was never built for them. This is where AI-powered educational tools step in, not as a replacement for the teacher, but as a skilled accompanist, tuning into each learner’s individual tempo and helping them find their own melody.

    At its best, education should recognize and support the unique ways students absorb, process, and respond to information. For neurodiverse students–those with ADHD, dyslexia, autism spectrum disorder (ASD), and other learning differences–this need is especially acute. Traditional approaches often fail to take care of their varied needs, leading to frustration, disengagement, and lost potential. But with advances in AI, we have the opportunity to reshape learning environments into inclusive spaces where all students can thrive.

    Crafting personalized learning paths

    AI’s strength lies in pattern recognition and personalization at scale. In education, this means AI can adapt content and delivery in real time based on how a student is interacting with a lesson. For neurodiverse learners who may need more repetition, multi-sensory engagement, or pacing adjustments, this adaptability is a game changer.

    For example, a child with ADHD may benefit from shorter, interactive modules that reward progress quickly, while a learner with dyslexia might receive visual and audio cues alongside text to reinforce comprehension. AI can dynamically adjust these elements based on observed learning patterns, making the experience feel intuitive rather than corrective.

    This level of personalization is difficult to achieve in traditional classrooms, where one teacher may be responsible for 20 or more students with diverse needs. AI doesn’t replace that teacher; it augments their ability to reach each student more effectively.

    Recent research supports this approach–a 2025 systematic review published in the EPRA International Journal of Multidisciplinary Research found that AI-powered adaptive learning systems significantly enhance accessibility and social-emotional development for students with conditions like autism, ADHD, and dyslexia.

    Equipping educators with real-time insights

    One of the most significant benefits of AI tools for neurodiverse learners is the data they generate–not just for students, but for educators. These systems can provide real-time dashboards indicating which students are struggling, where they’re excelling, and how their engagement levels fluctuate over time. For a teacher managing multiple neurodiverse learners, these insights are crucial. Rather than relying on periodic assessments or observations, educators can intervene early, adjusting lesson plans, offering additional resources, or simply recognizing when a student needs a break.

    Imagine a teacher noticing that a student with ASD consistently disengages during word problems but thrives in visual storytelling tasks. AI can surface these patterns quickly and suggest alternatives that align with the student’s strengths, enabling faster, more informed decisions that support learning continuity.

    Success stories from the classroom

    Across the U.S., school districts are beginning to see the tangible benefits of AI-powered tools for neurodiverse learners. For instance, Humble Independent School District in Texas adopted an AI-driven tool called Ucnlearn to manage its expanding dyslexia intervention programs. The platform streamlines progress monitoring and generates detailed reports using AI, helping interventionists provide timely, personalized support to students. Since its rollout, educators have been able to handle growing caseloads more efficiently, with improved tracking of student outcomes.

    Meanwhile, Houston Independent School District partnered with an AI company to develop reading passages tailored to individual student levels and classroom goals. These passages are algorithmically aligned to Texas curriculum standards, offering engaging and relevant reading material to students, including those with dyslexia and other learning differences, at just the right level of challenge.

    The future of neurodiverse education

    The promise of AI in education goes beyond improved test scores or sleek digital interfaces, it’s about advancing equity. True inclusion means providing every student with tools that align with how they best learn. This could be gamified lessons that minimize cognitive overload, voice-assisted content to reduce reading anxiety, or real-time emotional feedback to help manage frustration. Looking ahead, AI-driven platforms could even support early identification of undiagnosed learning differences by detecting subtle patterns in student interactions, offering a new frontier for timely and personalized intervention.

    Still, AI is not a silver bullet. Its impact depends on thoughtful integration into curricula, alignment with proven pedagogical goals, and ongoing evaluation of its effectiveness. To be truly inclusive, these tools must be co-designed with input from both neurodiverse learners and the educators who work with them. The score is not yet finished; we are still composing. Technology’s real legacy in education will not be in algorithms or interfaces, but in the meaningful opportunities it creates for every student to thrive.

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  • CoSN State Chapters Grow With Additions of MACE and CoSNE

    CoSN State Chapters Grow With Additions of MACE and CoSNE

    Washington, D.C.– CoSN today announced that the Mid-America Association for Computers in Education ( MACE) and the Nebraska Chapter of the Consortium for School Networking ( CoSNE) have been approved by the CoSN Board of Directors as official State Chapters. CoSN State Chapters play a crucial role in advancing the organization’s mission at the local level. These chapters provide a platform for education technology leaders to collaborate, share best practices and advocate for innovative solutions in their regions. Through networking events, professional development opportunities and policy influence, CoSN State Chapters empower members to drive impactful change in their school districts.

    MACE is a nonprofit corporation dedicated to advancing educational technology by fostering collaboration, sharing best practices and supporting educators in the effective use of technology. The organization works to enhance education through responsible use of hardware and software, engage with industry partners to establish technical standards, and connect professionals in the field.   CoSNE was established by the Nebraska Association of Technology Administrators ( NATA), along with a group of Nebraska K-12 chief technology officers, chief information officers and technology directors in smaller districts/regions — or not previously associated with NATA. CoSNE is advancing the focus on policy advocacy, professional development, and engagement with state and national entities to advance educational technology leadership and best practices for every K-12 technology leader across Nebraska.