Giving Students the Opportunity to Drive Lessons
Using inquiry-based learning gives students a chance to make their learning more relevant to their lives.
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Creating 21st-Century Learners
At Ralston Elementary School, teachers build toward student-driven inquiry throughout the course of the unit. Starting with teacher-guided inquiry, teachers model how to develop questions over a series of lessons, showing students that there are multiple ways to solve problems. This prepares students to lead their own inquiry by the end of the unit.
Ralston educators are building a culture of inquiry, empowering students to ask questions like:
"We want kids to leave Ralston afforded every opportunity in the world, equipped to do whatever they want to do in their life," says Anne DiCola, Ralston’s instructional coach. “When we open that opportunity at this early stage in their education, it empowers them to love learning, and to continue on in their K-20 education."
How It's Done
Begin With Guided Inquiry
Teacher-guided inquiry can build background knowledge of the topic before letting students take the reins in developing their own inquiry. With guided inquiry:
"Guided inquiry is like a typical science lesson," explains Anne DiCola, Ralston Elementary's instructional coach. "The teacher knows that they want kids to understand what happens when water boils. So they take them through an inquiry process; they make a hypothesis, what they think will happen. They talk about all of the materials they're using. They're going to have one or more guided questions. But the teacher knows in the end how the lab's going to end. They know what they want the students to know or do by the end of the lab."
Ralston teachers build toward student-driven inquiry throughout the course of the unit. Through teacher-guided inquiry over a series of lessons, teachers model how to develop questions, show their students that there are multiple ways to problem solve, and prepare them to lead their own inquiry by the end of the unit.
Teach Students How to Question
Explore and Model Different Types of Deeper-Level Questions
An important aspect of inquiry-based learning is teaching students how to ask deeper questions. When the teachers at Ralston had students begin creating their own inquiries, the questions were the type that could be answered with a Google search. Because they weren't coming up with deeper-level questions, the teachers had to pause and reflect on how they were modeling questioning to their students. They asked themselves, "What's an appropriate question? What kinds of questions work?"
According to Principal Dawn Odean, the following two tips helped Ralston teachers:
"We’re really looking at students being creative problem solvers," explains Odean. "For example, if students are reading a common text together, or posing questions about how they’re relating to the text, or how they think it might impact the world, there may not be one answer for that. As we start to pose those questions, we’re hoping that students start to pose those questions for themselves in a way that they can create an inquiry. Teachers are guiding with higher-level questions to really get students thinking and learning how to question themselves."
Example Questions
D.J. Osmack, Ralston's art teacher, integrated science and art together by having his students create their own paint. In his first art class, they followed a specific paint-making recipe. In the second class, they created a paint that fit their needs as artists. This is where the student-driven inquiry came in. What kind of paint did they want to create?
To guide his students in creating their own questions, Osmack asked:
Encouraged by these questions, his students began asking questions like:
"You have to form your questions the right way so you're not really taking over their creative process, but helping that creative process," clarifies Osmack, who noted how these student-generated questions encouraged them to explore and experiment on their own.
Let Your Students Drive Their Own Inquiry
Student-Driven Inquiry Led by a Question
In the guided inquiry example of boiling water, the teacher knows that she wants students to understand what happens when water boils. She creates a question that will guide students to an outcome already known to them.
The student-driven inquiry is what happens after the guided inquiry. Now that students know what happens when water boils, what questions come up for them? Their inquiry questions might be:
"Whatever it is that they're wondering about, that's the student-driven piece," elaborates DiCola. "That may or may not be something that the teacher envisioned happening afterwards. So they're having the opportunity to say, 'This is what I'm wondering about now. Now I'm going to go through that same process. I'm going to create a guiding question. I'm going to make a hypothesis. I'm going to gather the materials that I need.' It really flips the classroom in the sense that the student is then in the driver seat. And what's really exciting is when they can pose a question that maybe the teacher doesn't know the answer to, and they're really saying, 'Yeah, let's learn this together.'"
Guide Your Students' Inquiry With a Problem
Inquiry isn't driven only by questioning, but also by introducing a problem.
"Being the second-grade math teacher," explains Lindsay Ball, "I found that giving students an opportunity to really inquire and then solve their own problems in math has been a great opportunity. I can pose a problem for them and then let them find a different way to solve that information and to share what they’re thinking. We do a lot of collaborative conversations. The students are able to share what their thinking was, but then at the same time, listen to another child’s thinking, and recognize there can be different ways to get to the same conclusion or the same outcome -- and [realize] that everybody thinks in a different way, and everybody’s thoughts are valuable."
An Example Problem
Ball, who also teaches science, created a lesson that introduced eggs and seeds to her students and had them discover which material was which through this problem:
Explore Student-Driven, Problem-Led Inquiry
Ball's seeds vs. eggs problem inspired student inquiry that led their process of discovery. They came up with six stations, and their experiments came from their own inquiry. "I like doing it this way because you get to touch what you're actually doing instead of just looking at it," explains Logan, a second-grade student.
1. The Planting Station
Some kids planted the seed and the egg, pulling from their prior knowledge that a seed would likely grow and nothing would happen to the egg.
2. The Dissecting Station
Other students broke the egg and seed open, thinking that they might find a yolk or animal inside of the egg.
3. The Heating Station
Others put their egg and seed under a heating lamp, knowing that a mother chicken will sit on her eggs to make them hatch.
4. The Water Station
Some students put their eggs in water, knowing that fish eggs hatch when in water. Other students thought about density. If one of the materials were to sink or float, it might help them determine which was an egg and which was a seed.
5. The Weighing Station
Others thought that eggs would be heavier than seeds and weighed both materials.
6. The Size Station
Some kids thought that the egg would be bigger than the seed, and they looked at both under a microscope to compare sizes. They also measured them with a measuring tape.
"We found that the students really are able to take a bigger and a deeper passion in what they’re learning because it’s really what they care about versus what they think their teacher cares about," emphasizes Ball.
"We really don't have a limit," adds Kendall, a fourth-grade student. "We get to learn how to do this stuff with our own ideas."