Podcast Series: Innovations in Education

Explore the full series of eSchool News podcasts hosted by Kevin Hogan—created to keep you on the cutting edge of innovations in education.

Kidwind Celebrates Top Renewable Energy Innovations From Students At The 2023 National Kidwind Challenge

Boulder, Colo. – Being one of the best was the goal of each of the 80 teams while competing at the 2023 National KidWind Challenge in Boulder. Over the course of the three-day event, these highly skilled students were tested on their knowledge of renewable energy, their design and problem-solving skills, and their wind turbines’ energy output by a team of renewable energy educators and industry professionals. The top-performing teams are:

High School Division (Grades 9-12)

  • THS Wind Breakers from Tabb High School in Yorktown, Va.
  • Mauston Gummy Bears from Mauston High School in Mauston, Wis.
  • The Quilt Blockers from Darlington High School in Darlington, Wis.

Middle School Division (Grades 6-8)…Read More

4 ways to build engineering into your curriculum

Key points:

  • Engineering doesn’t have to be intimidating
  • Engineering helps students learn the mechanics of their world

Engineering is arguably one of the most useful and relevant subjects in our schools today. Its impact on our world cannot be overstated. Engineers are the ones who help humanity reach the moon, explore the depths of the ocean, assist in the treatment of serious illnesses, and even design many of the games our students play.

Unfortunately, engineering can often feel like a separate unit or idea that teachers need to explain. With many of today’s educators already feeling overwhelmed with the responsibilities of teaching, finding ways to seamlessly integrate engineering into the curriculum is essential for both teacher and student success.…Read More

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Classroom noise pollution is adding to student distraction

Key points:

  • Students can’t learn if they’re having trouble listening
  • Tech tools and sound amplification can help combat classroom noise pollution

Learning depends on listening. But classroom noise pollution is making hearing in the classroom harder. Finding simple and effective ways to dial down classroom noise levels can help increase focus and stamina.

The World Health Organization recommends classroom sound levels of no more than 35 decibels. The average volume of a classroom, however, rings in at more than twice that level. At 77 decibels, the average classroom produces the same level of noise as freeway traffic or other “annoyingly loud” sounds.…Read More

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How schools can respond to ChatGPT with inquiry-based learning

Key points:

  • Inquiry-based learning helps students become independent learners and develop critical durable skills
  • This approach will ensure students can use tools such as ChatGPT, which will have a role in the future workforce

The rise of ChatGPT promises to bring simplicity to the more mundane tasks of human existence and has also revived with new fervor an enduring question of our education system: how do we adequately prepare students to thrive in the real world? How do we design worthy learning tasks, when artificial intelligence (AI) tools can do the work of a student in a fraction of the time and nearly none of the effort?

While some call for a ban of ChatGPT in schools, I suggest something entirely different. Instead of blocking ChatGPT and tools like it, consider incorporating them into classrooms through an inquiry-based learning framework.…Read More

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4 resources to differentiate computer science instruction

Differentiating instruction is not a new approach to bridging the varying learning styles of students with different backgrounds and learning abilities. For years, educators have strategized how to differentiate instruction in math, ELA, and science. Countless articles and books offer best practices for differentiation in those subjects, but comparatively, very little has been written about differentiating computer science instruction. 

I believe computer science is more important than ever. In the age of artificial intelligence, the study of computers and computational systems—including their theory, design, development, and application–represents a new frontier in science. 

New fields in computer science seem to emerge each day and now include computer systems and networks, security, database systems, human computer interaction, vision and graphics, numerical analysis, programming languages, software engineering, bioinformatics, and theory of computing.…Read More

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10 ways to teach students for a changing world

The world is changing rapidly, with new technology being developed daily and jobs being replaced by automated machines and artificial intelligence (AI). These changes have brought about tremendous opportunities for those who can take advantage of them. However, these changes could spell disaster for those who are not prepared for the future. This is why it is so important that schools and educators take the necessary steps to ensure that our students are prepared for the future.

The 2023 Brain-Centric Design report estimates that by 2030, demand for higher cognitive skills will increase by 19 percent, while demand for physical and manual skills will decline by 14 percent. This means that the future of work will require a different set of skills than needed in the past. Therefore, schools and educators must equip students with the skills and knowledge needed to succeed in this new environment.

Here are 10 steps schools and educators must take to ensure that students are prepared for the future due to the rise of AI technology in the workplace:…Read More

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Robotics plays a key role in early STEM education

While many think of high school students engaged in mechanical engineering or robotics competitions when they hear the word “robotics,” the subject naturally lends itself to learners of all ages—including very young students.

In this episode of Innovations in Education, hosted by Kevin Hogan, you’ll hear from Jason Innes, Director of Curriculum, Training and Product Management at KinderLab Robotics, Inc., discuss why robotics is an excellent way to introduce young learners to coding, computational thinking, and design principles.

…Read More

Equity and Access at the Core of Learning Without Tears’ Breakthrough Literacy Program, Phonics, Reading, and Me™

Cabin John MD Early learning leader, Learning Without Tears, today affirmed that equity and access are at the core of Phonics, Reading, and Me™—its K–3 supplemental literacy program designed to help students learn the skills they need to become proficient readers. While the content itself provides multicultural access through decodable texts and small group activities, Phonics, Reading, and Me also benefits from artificial intelligence-driven speech recognition technology powered by SoapBox Labs, the first company in the world to achieve independent certification for identifying and mitigating racial bias in AI design. This certification was awarded by Digital Promise, a non-profit established by the US Congress in 2011 to develop research, practice, and technologies to drive education equity, in partnership with the EdTech Equity Project.

“From the start, Phonics, Reading, and Me was designed to be different,” explained Learning Without Tears Chief Executive Officer, Terry Nealon. “In both content and technology and professional learning and support, Phonics, Reading, and Me raises the bar on delivering bias-free and equitable access learning for all students. This is at the core of Learning Without Tears’ commitment to delivering breakthrough learning programs.”

Partnering with SoapBox since June of 2022, Phonics, Reading, and Me leverages this AI technology to accurately capture data on skills proficiency—regardless of children’s race, background, or ethnicity. This data drives personalized pathing within the system: offering scaffolds and opportunities to stretch so all students progress along the skills sequence together. The data from child-specific, accurate speech technology from SoapBox coupled with Learning Without Tears’ activities and proprietary pathing formulas drive efficacy and empowers young learners with the essential literacy skills they need to access grade level text.…Read More

Why design thinking is important in early childhood education

In early childhood education, most parents are aware of the importance of teaching key academic skills such as early literacy and mathematics skills. Recent research also suggests that problem-solving is an equally important skillset to teach young children. While the design thinking model is implemented in K-12 education, it is relatively new in early childhood education but highly effective.

What is design thinking? Design thinking is an iterative process used to solve real-world problems. At its core, design thinking has several steps: Identify a problem, design potential solutions, test the solutions, redesign as needed and share the solutions with a wider audience. Design thinking is used regularly in many fields (engineering, business, IT, health care, etc.) and has recently gained wide popularity due to the effectiveness of this problem-solving approach.

Why is design thinking important? As pediatrician Laura Jana notes in her book, The Toddler Brain, 65 percent of today’s children will face unknown careers and problems when they are adults. Children will always need to solve problems throughout their lives and the difficulties they face will grow in complexity as they mature. Design thinking is a lifelong skill that children may use to tackle complex problems throughout their lives, so it is a valuable skill to learn early in life, particularly within the first five years. According to Dr. Jana, there is a direct connection between early skills and workforce development. The 21st century competencies valued by today’s business world are one and the same with the core social, emotional, language and executive function skills that can be fostered in early childhood. Forbes explains that design thinking is a way for businesses to increase productivity, foster innovation and eliminate wasted time and money on guesswork-based development by empowering front-line workers to collaborate on diverse teams and explore new ideas. Design thinking helps children build a resilience-focused mindset and teaches many of the 21st century skills, such as the four C’s: creativity, collaboration, compassion and confidence. These are skills children can use to address increasingly complex problems throughout their lives.…Read More

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