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Inquiry-based learning: 3 tips for science teachers

How can you create a culture of inquiry in the science classroom? Great question.

By Amplify Staff | December 19, 2022

Which practice is at the top of the eight NGSS Science and Engineering Practices? Good question! It鈥檚 asking questions and defining problems.

And why is asking questions so important? (Also a good question.)聽

Because science isn鈥檛 just facts. Science is a process of finding answers鈥攁 process that starts with questions. That鈥檚 why students learn like scientists best in a science classroom defined by phenomena-based learning, also known as inquiry-based learning.聽聽

How can science educators bring this approach into the classroom?聽

That鈥檚 one question host Eric Cross and science educator and professional development facilitator Jessica Kesler address in the latest episode of 抖阴成人版app鈥檚 Science Connections: The Podcast.

The power of questions

Kesler鈥檚 mission at , a Tiger Woods charity, is to empower educators to create engaging classrooms that foster future leaders.

鈥淲e train teachers on STEM competencies and the pedagogical tools and strategies to implement the STEM we鈥檙e doing in our learning labs,鈥 she says. 鈥淭hen they can implement it in the classroom and have this multiplicative effect that can help us reach millions of kids and prepare them for careers.鈥

Those pedagogical approaches include student-centered learning practices. Using those practices, teachers spend less time delivering facts and more time asking questions, while developing students鈥 ability to do the same.

That鈥檚 how we shift science from, as the NGSS frames it, 鈥渓earning about鈥 to 鈥渇iguring out.鈥

Per the : 鈥淭he point of using phenomena to drive instruction is to help students engage in practices to develop the knowledge necessary to explain or predict the phenomena. Therefore, the focus is not just on the phenomenon itself. It is the phenomenon plus the student-generated questions about the phenomenon that guides the learning and teaching. The practice of asking questions or identifying problems becomes a critical part of trying to figure something out.鈥

Inquiry-based learning examples and approaches

Kesler recognizes that a shift to inquiry-based learning can鈥檛 be made overnight, or all at once. 鈥淲e never suggest overhauling your classroom鈥dd a little bit here and there and see how it impacts your students.鈥

Here are some strategies Kesler suggests for empowering educators to deliver inquiry-based science learning.

  1. Cultivate an inquiry mindset. We live in a world where answers to pretty much everything are right on our phones, right in our pockets. That ease and accessibility can dampen student curiosity. But when teachers start shifting focus from asking students for answers to asking them to develop smart questions, students can grow that mental inquiry muscle.
  2. Make inquiry visible. No need to be sneaky鈥攜ou can be explicit with students about what you鈥檙e doing, and what you鈥檙e inviting them to do. Think: 鈥淲hat are tools and strategies you can use so that students can illuminate their thinking for themselves and for you and their peers?鈥 Kesler says. 鈥淪o the students get to see their own thinking as they progress, and you get to tell the story of how their minds have evolved.鈥 Paying attention to student questions also enables you to observe where students are making mistakes, where misconceptions come up, and where you should target your next lesson, Kesler adds. 鈥淪o it makes you more responsive in the moment.”
  3. Build an inquiry environment. Asks Kesler: 鈥淲hat are the things that you can embed into your physical space and develop in a student鈥檚 intellectual space that will help you create a holistic inquiry environment?鈥 There鈥檚 no one right answer, but a shift in environment can support a shift in intellectual approach. (Consider the opposite: 鈥淚f you take someone out of an old habit or space and tell them, 鈥榃e are gonna change your minds and teach inquiry,鈥 but put them back in the same environment, they鈥檙e going to be conflicted,鈥 Kesler says. You could create displays that present questions rather than facts, or arrange the room to support conversation rather than lecture鈥攚hatever makes sense for your space.

Definitely test, explore, experiment鈥攅ven take risks鈥攁nd ask your own questions. After all, the inquiry mindset is for you, too!

Learn more

Explore how Amplify Science supports inquiry-based learning.

Listen to all of Season 1, Episode 10, Empowering the science educator: Jessica Kesler, and find more episodes and strategies from 抖阴成人版app’s Science Connections: The Podcast.

 

Tags:
Amplify Science NGSS Phenomena-based learning Science Connections Science teacher tips

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