Supporting science students with a creative twist

In this episode of Science Connections: The Podcast, Kentucky Science Teacher of the Year Shad Lacefield sat down with host Eric Cross to discuss ways to create memorable learning experiences for students.

You can access the full episode here, but we’ve pulled out Shad’s top three teacher takeaways for you to use in your classroom today!

1. Go above and beyond for your class.

During remote learning, Shad was having a tough time connecting with students and keeping them engaged virtually, so he started something called “Vader Visits.” Shad would dress up as Darth Vader and show up at students’ houses as an incentive to get them to turn in their work on time and stay interested in what he was teaching in science class at the time. It was a commitment for Shad, as he had to fit that into his teaching (and life) schedule, but he was able to keep his students interested in science class, and learned more about each student he went to visit. The practice was so successful, he extended it beyond remote learning.

I still try to dress up at least once every week, if not once every other week just to make whatever we’re doing fun.

– Shad Lacefield

2. Get to know your students in creative ways.

As part of his Vader Visits, Shad was able to get students to open up and share more of their interests with him, which helped him build better connections with each student. As a way to connect with students less interested in Star Wars, Shad asked them about their other interests and found new costumes. For some students, he would show up dressed up as Harry Potter. For others, he would dress up as Mario from Mario Brothers.

I went [on] over 50 visits and it was cool to see kids in their home and talk to them and meet their parents. It was a great opportunity for me to engage with parents as well, [to ask,] ‘how is online learning going? What can I do to support you? Do you have any questions?’

– Shad Lacefield

3. Be open to new ways to reach students.

Shad has creatively expanded his teaching to include outlets that he knows kids are interested in outside of school. He makes TikTok videos. He weaves Minecraft references into his lessons. He uses YouTube. He even creates new characters to keep things fresh. By speaking a “language” that was familiar to students, Shad was able to create more meaningful connections with his students as both learners and people. And it helped him stay positive as an educator.

I just go back to, ‘why did I do this to begin with?’ And it gets me excited to be like, ‘I did it for the kids, and it’s about the kids.’ I get joy when they’re laughing and smiling.

– Shad Lacefield

For a more in-depth look, listen to the full episode to hear Eric and Shad discussing ways to create memorable learning experiences for students.

Science Connections: The Podcast featuring Kentucky Science Teacher of the Year Shad Lacefield.

How can teachers find new energy in the science classroom?

Hear from our Science Connections: The Podcast guest and science PD expert Jessica Kesler

In the final episode of the latest season of Science Connections: The Podcast, host Eric Cross sits down with Jessica Kesler, professional development facilitator for science teachers. 

During the episode, Kesler describes her passion for sharing high-impact teaching strategies for science teachers and her experiences teaching in Philadelphia, and discusses how teachers’ roles often involve more than just delivering content.

Read on for a peek at the episode, and to learn more about science professional development for teachers. 

Meet Jessica Kesler

“I wanted to be a surgeon,” says Kesler. But learning about science ultimately inspired her to help others learn it, too. Her passion is to empower educators to create engaging and effective classrooms that will foster future leaders, work she is able to do in her role as a professional development facilitator at TGR Foundation, a Tiger Woods charity. This position enables her to develop and implement professional learning experiences focused on STEM-based, student-centered learning practices.

Before joining the TGR Foundation, she taught in Philadelphia schools as a chemistry and science teacher for grades 4–12, which was a bit of a culture shock. Kesler had gone from teaching near-adults who could drive themselves to school to teaching young children who often related to teachers as parent figures. The experience taught her a lot about “patience and breaking information down even smaller,” she says.

I had to figure out new and inventive ways to teach science and bring it down so far that students would be able to grab onto it and achieve it. It was a challenge,” she continues.  “But in the end it paid off. We hit our goals out of the park.

Teachers are the multipliers we need

Kesler and her team at the TGR Foundation designed their goals around a challenge issued by Tiger Woods himself: Reach millions of kids. 

They knew that reaching one student at a time would make it hard to reach their goals. 

The key? Focus on teachers, who can reach hundreds of students at a time. “They can have this multiplicative effect that can help us reach those millions of kids and help prepare them for careers,” she says.

Here are just a few of the teaching strategies and pieces of advice they offer science educators: 

  • Develop your inquiry environment. This means thinking not just about your physical space, but also your intellectual space. Kesler asks: “What are the things that you can embed into your physical space and develop in a student’s intellectual space that will help you create a holistic and growing environment?”
  • Be the entrepreneur of your classroom. Kesler and her team like to ask how a teacher can use entrepreneurial techniques to tackle issues in their schools, districts, and spheres of influence.

“Teachers are eager, but tired,” says Kesler. She notes that while school may be back in session, educators are still managing the effects of the pandemic and trying to get kids excited (and keep them excited) about science.

While teachers want to learn and do more, they are more concerned than ever about having enough time, funding, and energy to do so. 

Says Kesler: “I know you don’t have enough time to try to do 29 extra things. My advice is always: Do one thing at a time. Start with something small. Asking your students a few questions rather than lecturing to them doesn’t take a whole lot of extra time, but it gives you so much extra insight. So let’s not work harder. Let’s work smarter.” 

She continues: “It’s not Thanksgiving, where you just keep piling on a plate. It’s a time where you organize your inquiry to restructure your plates so that everything has a place and a time.”

Listen to the whole episode and to the rest of the podcast.

About Amplify’s Science Connections: The Podcast

Science is changing before our eyes, now more than ever. So how do we help kids figure that out? How are we preparing students to be the next generation of 21st-century scientists?

Join host Eric Cross as he sits down with educators, scientists, and knowledge experts to discuss how we can best support students in science classrooms. Listen to hear how you can inspire kids across the country to love learning science, and bring that magic into your classroom for your students.

Learning to read digitally vs. in print

Welcome back to Science of Reading: The Podcast!

We often assume children are digital natives, but research shows that many are not being taught to use technology even when they’re surrounded by it. And though some students prefer to read digitally, research has demonstrated that this doesn’t necessarily mean they’re reading more effectively. How can we, as educators, best utilize the strengths of both technology and print to build strong foundational skills in reading?

As we saw in this pandemic, reading digitally is not going anywhere … and, in fact, is what made learning even a possibility the past year and a half.

—Dr. Lauren Trakhman, Professor, University of Maryland, College Park

In this episode, Susan Lambert sits down with Lauren Trakhman and Patricia Alexander, professors from the Department of Human Development and Quantitative Methodology within the College of Education at the University of Maryland, College Park, to discuss their research on the effectiveness of teaching reading in print vs. digitally.

Their conversation explores the ways in which teaching reading in print remains vital even in a digital world. Trakhman and Alexander also explain why it’s important to avoid making assumptions about students’ abilities to use technology and how that can be a detriment to reading success. Lastly, they discuss strategies for using technology to boost children’s foundational skills.

Listen below!

For more wisdom, research, and practices on the best ways to teach reading, subscribe to Science of Reading: The Podcast.

4 ways to weather educational change

The landscape of education is constantly shifting. That’s always been true, because the world is constantly changing. But at no time in recent memory has the landscape of education been forced to change in as many ways as it has over the past few years.

How can teachers navigate the seismic changes in the education system in their day-to-day lives?

In this recent episode of Science Connections: The Podcast, host Eric Cross talks about managing educational change with veteran educator and former Miami-Dade County Public Schools (M-DCPS) Middle School Science Teacher of the Year Marilyn Dieppa.

Below, we’ve outlined four tips for weathering shifts. The bottom line? It’s important for teachers to be able to change with the times, while remaining a steady, solid presence for students.

1. Embrace change—it’s good for kids, too.

“I always change my labs. I don’t like to do the same thing over and over again,” says Dieppa. And when she tries something new, she tells her students she’s experimenting. (After all, it’s science!)

“They’re afraid of trying something new and failing,” Dieppa says—so she tries to model taking on the unknown, learning, and adjusting as needed. This is part of cultivating a growth mindset for kids. “It’s for them not to be fearful. That gives kids a foundation they need.”

2. Have an open-door policy.

The pandemic has exacerbated challenges in kids’ lives that can make it tough for them to learn. Some even say we’re in a youth mental health crisis. Now more than ever, it’s important that “you become more than just a science teacher,” says Cross. “You’re a mentor. You’re an encourager. Sometimes you’re a counselor.”

It’s impossible to be everything to every student, but it’s important to let them know you see them.

“I always say, I’m not there to really be your friend, but I’m there to help you,’” says Dieppa. “And you gotta tell ’em, you know, ‘if you need to talk, come talk to me’. Because so much of what we’re doing is like life coaching in addition, and that connects to their success in the classroom.”

3. Measure wins in lots of ways.

What keeps Dieppa going? “Whether [students] have struggled all year and they’ve had that one piece of success, or they come back and tell you they didn’t realize what they got out of middle school science until they got to high school, those are my moments of success.”

4. Remember—you’re still learning, too.

Yes, you’re the teacher, but “you don’t have to be the expert in everything,” says Cross. “Teachers tend to be more risk-taking and innovative when they’re willing to say, ‘I don’t have to know everything in order to do something.’”

Whenever it feels like you can’t do something or don’t know something, remember: You can’t do it yet. You don’t know it yet. Growth mindset phrases for students apply to your growth, too.

Listen to the whole podcast episode here and subscribe to Science Connections: The Podcast here

About Amplify’s Science Connections: The Podcast

Science is changing before our eyes, now more than ever. So how do we help kids figure that out? How are we preparing students to be the next generation of 21st-century scientists?

Join host Eric Cross as he sits down with educators, scientists, and knowledge experts to discuss how we can best support students in science classrooms. Listen to hear how you can inspire kids across the country to love learning science, and bring that magic into your classroom for your students.

Inquiry-based learning: 3 tips for science teachers

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

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

Because science isn’t just facts. Science is a process of finding answers—a process that starts with questions. That’s why students learn like scientists best in a science classroom defined by phenomena-based learning, also known as inquiry-based learning.  

How can science educators bring this approach into the classroom? 

That’s one question host Eric Cross and science educator and professional development facilitator Jessica Kesler address in the latest episode of Amplify’s Science Connections: The Podcast.

The power of questions

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

“We train teachers on STEM competencies and the pedagogical tools and strategies to implement the STEM we’re doing in our learning labs,” she says. “Then 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.”

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’ ability to do the same.

That’s how we shift science from, as the NGSS frames it, “learning about” to “figuring out.”

Per the NGSS: “The 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.”

Inquiry-based learning examples and approaches

Kesler recognizes that a shift to inquiry-based learning can’t be made overnight, or all at once. “We never suggest overhauling your classroom…add a little bit here and there and see how it impacts your students.”

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—you can be explicit with students about what you’re doing, and what you’re inviting them to do. Think: “What are tools and strategies you can use so that students can illuminate their thinking for themselves and for you and their peers?” Kesler says. “So the students get to see their own thinking as they progress, and you get to tell the story of how their minds have evolved.” 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. “So it makes you more responsive in the moment.”
  3. Build an inquiry environment. Asks Kesler: “What are the things that you can embed into your physical space and develop in a student’s intellectual space that will help you create a holistic inquiry environment?” There’s no one right answer, but a shift in environment can support a shift in intellectual approach. (Consider the opposite: “If you take someone out of an old habit or space and tell them, ‘We are gonna change your minds and teach inquiry,’ but put them back in the same environment, they’re going to be conflicted,” Kesler says. You could create displays that present questions rather than facts, or arrange the room to support conversation rather than lecture—whatever makes sense for your space.

Definitely test, explore, experiment—even take risks—and 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 Amplify’s Science Connections: The Podcast.

New professional development series for science educators

New year’s resolutions generally don’t work—unless, experts say, they’re specific, measurable, and backed by science (like … getting more sleep so you feel more rested). So if you’ve resolved (or at least planned) to do more science professional development this year, we got you.

Our new, free, on-demand professional development webinars are ready to be added to your calendar. Designed for the era of NGSS, they offer research-based ways for you to engage your students deeply in science this year. (But we hope you’ll find a way to get more sleep, too!)

Phenomena-based science learning for next-level engagement

The Next Generation Science Standards (NGSS) are designed to deliver this key shift: Students go from learning about to figuring out. Instead of delivering information, teachers invite students to explore the power of phenomena-based learning in science. By focusing first on real-life scenarios and thoughtful questions over abstract correct answers, this approach cultivates students’ voices and curiosity. It gets them to the right answers—but in a way that helps them think, read, write, and argue like real scientists and engineers.

The NGSS also deliver three-dimensional science instruction. This means that each standard includes the following three dimensions:

  1. Science and Engineering Practices: the actual behaviors that scientists and engineers engage in as they investigate and create.
  2. Cross-cutting Concepts: concepts that appear across and link various domains of science. They include: Patterns, similarity, and diversity; cause and effect; scale, proportion, and quantity; systems and system models; energy and matter; structure and function; and stability and change.
  3. Disciplinary Core Ideas: The fundamental scientific ideas that make up the core content of the NGSS.

A look at our webinars

Featuring curriculum experts from UC Berkeley’s Lawrence Hall of Science, our webinars will  show you what these approaches look like in real classrooms.

COURSE 1

Establishing a Culture of Figuring Out in Your Next Generation Science Classroom

Explore ways to cultivate curiosity and value student voices while utilizing the structures and content from phenomena-based, literacy-rich science curricula designed for the Next Generation Science Standards.

COURSE 2

Lead with Phenomena and the Three Dimensions Will Follow

Reframe your K–8 science instruction by focusing on phenomena. Learn about the shift in science teaching and classroom practices toward one where students are figuring out, not learning about.

COURSE 3

Leveraging Science to Accelerate Learning

Learn about an approach to teaching and learning science that not only meets state science standards, but can also be used to support accelerated student learning across all subject areas.

Learn more and sign up. You will also earn a certificate for each course you complete.

Also:

Tune into Science Connections:The Podcast.
Learn more about the NGSS.
Explore more Amplify webinars.
Have a phenomenal 2023 in science!

Bringing joy to learning in the science classroom

As we prepare for an exciting new season of Science Connections: The Podcast, we’re looking back at past seasons and sharing some of the amazing conversations we’ve had so far.

We’re so grateful to our 15 guests whose insight, expertise, and generosity have made our podcast (if we may!) one of the best science podcasts out there.

If you’re new here, welcome! In Amplify’s Science Connections: The Podcast, host Eric Cross talks to educators, scientists, and subject matter experts about ways to best support and inspire the next generation of 21st-century scientists.

Get ready for season 3, with all-new topics and speakers, premiering in March!

Our first featured throwback episode, Bringing community and joy to the learning process in K–8 science instruction, features physicist Dr. Desiré Whitmore!

First, meet Dr. Whitmore

Dr. Whitmore has nicknamed herself “Laserchick.” It’s a reference to the focus of her postdoc work at UC Berkeley, where she designed and built attosecond lasers. (These laser pulses, which emit x-ray light, are the fastest ever measured).

She later became a professor of laser and photonics technology at Irvine Valley College, as well as a science curriculum specialist for Amplify. She’s now senior physics educator in the Teacher Institute at the ExplOratorium in San Francisco.

There, she works to support middle and high school science teachers in teaching through inquiry. On a given day, she says, her role may include “making fudge or blowing darts with marshmallows across the room.”

But it all began with bubbles—the ones she’d blow as a child with her beloved great-grandmother. She was also the kind of kid who would do experiments in the microwave or take apart the vacuum cleaner. “I was always asking questions,” she says.

“Everything we do is science”—and more.

Here are some key takeaways from Dr. Whitmore’s conversation with Eric Cross.

  • Let students do their thing. Whitmore and Cross talked about students who didn’t hew to the letter of the assignment—and actually went beyond. That’s more than okay.

I think it’s amazing when we can realize as teachers that no, our job is not to just enforce rules on our students. Our job is to help students achieve more learning.

—Dr. Desiré Whitmore
  • Representation truly matters. Dr. Whitmore, who is Black, recalls a chemistry teacher she had in high school who was also Black. “He looked like me and spoke the way I spoke,” she says. He also recognized that she knew a lot about chemistry, and half-jokingly encouraged her to teach the class sometimes. In Whitmore’s experience, representation like that can supersede content knowledge.
  • Science is everything and everywhere. “Science is something that everyone in the world should and does do,” says Whitmore. She sees part of her job as “helping people understand that everything we do is science.”
  • Show scientists as real people. Whitmore recalls a time when an eighth-grader she’d known growing up was thrilled to recognize her in an Amplify Science video. The student knew her as a “regular human” who likes “Star Trek” and “Star Wars,” but now also sees her as a scientist. “That really brought home for me the importance of my work,” she says.
  • Put teachers in students’ shoes. As part of professional development, Cross and Whitmore agree that it’s important for teachers to remember how it feels to have a question—to not know. “That helps me be in the position of my students emotionally,” says Cross.

Perhaps that’s the most powerful way for teachers to connect with their future scientists: “To experience science as a learner,” says Whitmore.

Additional resources

Inquiry-based learning: 3 tips for science teachers
New professional development series for science educators
Celebrate student scientists with classroom posters, activities, and a special giveaway!

Integrating literacy in the science classroom

What do science classrooms and ELA classrooms have in common?

Literacy.

As science students build their scientific literacy, they also build their literacy literacy—as in,their capacity to read, write, and think across all disciplines. In a sense, all teachers are teachers of literacy, as students read to learn in essentially every subject.

An ELA teacher can help students learn to read and interpret certain types of non-fiction and science-related texts, while a science teacher is uniquely positioned to integrate a science curriculum with a focus on literacy goals. ELA teachers are the experts on what the average person considers literacy; however, science teachers are the true experts on science literacy.

In this post, we’ll take a look at what it means for science teachers to support literacy growth in their students.

Scientific literacy vs. literacy in science

First, let’s define our terms.

Scientific literacy refers to a student’s understanding of scientific concepts, inside and outside the classroom.

Literacy in science refers to the literacy skills that students use to acquire and share scientific knowledge. These skills include reading, writing, speaking, and listening.

Developing students’ literacy in science helps them develop scientific literacy. Science literacy allows students to become critical thinkers, problem solvers, and strategic questioners.

 Insights on integrating science and literacy

Integrating literacy into science is more than making sure students read articles and write lab reports—but the two are still a natural fit.

The standards that guide instruction in grades 6–8 make this integration concrete. Certain Common Core ELA standards intersect with the Next Generation Science Standards (NGSS).

To cite just a few examples, the Common Core requires students to be able to:

  • Cite specific textual evidence to support analysis of science and technical texts. RST.6-8.1
  • Determine the central ideas or conclusions of a text; provide an accurate summary of the text distinct from prior knowledge or opinions. RST.6-8.2
  • Follow precisely a multistep procedure when carrying out experiments, taking measurements, or performing technical tasks. RST.6-8.3
  • Integrate quantitative or technical information expressed in words in a text with a version of that information expressed visually (e.g., in a flowchart, diagram, model, graph, or table). RST.6-8.7
  • Distinguish among facts, reasoned judgment based on research findings, and speculation in a text. RST.6-8.8

What’s required of students is what’s often called disciplinary literacy. That means literacy through the lens of inquiry in a given field. Science has its own set of vocabulary and reading/writing styles students need to learn to understand, decode, and write in.

And when they do, the academic benefits go both ways.

 Integrating literacy into science encourages both science and ELA growth

The scientific method requires students to ask questions, listen to explanations, and present conclusions. And when science teachers use targeted literacy teaching strategies, they can help students understand challenging scientific vocabulary. For example, they can learn the difference between the two meanings of the word “culture.” Those are the same approaches students will use when analyzing with and communicating about texts in ELA.

Also, reading in science can be more than just reading a science textbook or science-related article—teachers can help students learn to read through a scientific lens by encouraging even the youngest students to articulate their questions about a text and understand where they might find answers.

And then there’s writing: “Science and writing standards are really in service of each other,” writes educator Gina Flynn in Literacy Today. “When we present authentic writing opportunities in science, we are not only developing students’ understanding of science concepts but also providing an authentic context for developing writing skills.”

Integrating science into ELA also encourages both science and ELA growth. When students grapple with science-related texts in ELA, they can develop ways of thinking and communicating that support the scientific approach, refine sense-making skills that are key to both disciplines, and get inspired to keep up with the latest scientific discoveries—yet another great reason to read.

More to explore

Science and literacy: You don’t have to choose

Amplify K–5 integrated literacy and science instruction

6–8 literacy elements in Amplify Science

Instructional strategies for integrating literacy into your science classroom

Do you ever feel like science is the underdog in your school or district? You’re not alone.

But it doesn’t have to be that way. In fact, we know that science can overdeliver. That’s especially true when educators successfully integrate it with other subjects.

You can dive into the power of integrating science and literacy with the latest season of Science Connections. Here’s a sneak peek at what we explore in the first few episodes of Season 3 of our podcast.

Rooting for the underdog

In what sense is science seen as an underdog? Just ask Eric Banilower and Courtney Plumley of Horizon Research, a consulting firm that supports educational improvement and policy development. Host Eric Cross interviews them in Season 3, Episode 1.

As you know, an underdog is generally a weaker or less favored person or entity. Banilower and Plumley find that science instruction often fits that mold.

One thing they found: elementary school teachers’ schedules allow for less instruction of science than math and ELA. They also note that when there’s a break in routine—a special assembly or early dismissal—science is often “the first thing to go,” says Plumley.

They also note that instructors (like many others) are often expected to design their own curriculum.

The conversation offers some solutions for shifting these practices, as well as supporting science instructors in general.

“You don’t ask doctors to develop new treatments and tests. Their job is to get to know their patient, assess what’s going on, and then use research-based methods to develop a plan of action. That analogy [suggests] a scalable approach for raising…the quality of science education,” Banilower says.

What is that approach? According to Banilower, “Giving teachers research-based, high-quality instructional materials that they can use to meet the needs of their students would allow them to focus on getting to know their students, seeing their strengths, [finding areas where they have] room for growth, and…help[ing] those students progress.”

The power of integrating science and literacy into the science classroom

Science does not need to stay in a silo. As we illuminate in Episodes 2 and 3, bringing literacy work into the science classroom can supercharge students’ work in both. (We also explore the topic in this blog post.)

“We know we need to dramatically improve literacy rates in this country, and as we’ll show in the coming episodes, science can be a key ally in that goal,” says our host, Eric Cross.

It goes the other way, too. Language development and literacy instruction can support science. “Win-win, folks,” says Cross.

In Episode 2, senior science educator Dr. Susan Gomez Zwiep described how bilingual and multilingual students in her school accelerated their English speaking and learning when they were excited to discuss science phenomena.

Indeed, she notes, the NGSS provides rich linguistic opportunities for students. We used to talk about language in science as all technical, but that’s changed. “Language is now developed through the science learning experiences,” says Gomez Zwiep.

Two key approaches you can use:

  • Think of science lessons as a narrative. Gomez Zwiep suggests you ask yourself, “What’s the story arc of my science lesson? How are the science ideas building over time?”
  • Welcome language that’s comfortable and conversational for your students.  “This expansion of language, including non-standard dialects and even home language, is really important for letting students bring their whole selves into the classroom,” she says.

More ways to enhance literacy in science 

Don’t worry—you don’t need to take a second job. “It’s not that you have to become a reading specialist to integrate literacy into science,” says Douglas Fisher, Ph.D., professor and chair of educational leadership at San Diego State University. “It’s how our brains work.”

It’s also how science works. “Science teachers and scientists do a lot of reading, writing, speaking, and listening and viewing. They use the five literacy processes all the time,” says Fisher, our guest on Episode 3.

Some strategies Fisher offers:

  • Invite multiple aspects of literacy. Think: What role do speaking, listening, reading, writing, and viewing, play in your class? Provide opportunities for students to do those things each time you meet with them.
  • Read challenging texts. “Science is an ideal place to get students reading things that are hard for them. Doses of struggle are good for our brains,” Fisher says. “Complex texts that don’t give up their meanings easily allow students to reread the text, mark it, talk to peers about it, and answer questions with their groups.”
  • Get them writing, even in short bursts. “Writing is thinking,” he says. “While you are writing, your brain cannot do anything else.” So if your students understand a given concept, have them write about it.

And that’s just the beginning. Tune in—and stay tuned—for more strategies for encouraging literacy integration in a science classroom.

More ways to learn