When evaluating alignment to NGSS, ask how well the curriculum releases responsibility to students over the course of the year.
Let’s begin by asking how much time should you be spending on learning. This question is easily answered, even if the implementation is not quite so simple.
The idea is “pacing with experience,” which means that there should be a release of responsibility in students’ learning of the materials at a pace that they can handle based on age and previous exposure to STEM concepts and practices. Additionally, standards should be grouped together for introduction, mastery and reinforcement. That makes the sequence intentionally nurturing from September through June and from Kindergarten through 12th grade.
Remember that practices make up the stuff of the processes, so learning those practices is crucial for students to engage in science and engineering as processes. You should look for curriculum that has this take place from September through November, because it takes about 10 weeks for students to form a habit and a clear understanding of expectations, so this is just enough time for them to learn to reach that goal of independent proficiency with practices.
Around Thanksgiving, we can shift our thinking to refining those performance expectations of students. By now, they are working in small teams. Teamwork and collaboration are well-documented 21st-century skills, so we definitely want to encourage them. This process continues toward January, supporting students in developing independent proficiency with the processes.
Come January, it’s time to release responsibility almost fully, with the proviso that students still check in with teachers on a regular basis. For the rest of the year, however, the goal is to enable them to engage independently with the material, extending their performance of the NGSS expectations and helping them deepen their expression of higher order thinking skills.
We addressed these milestones for the full release of responsibility above, but let’s go into them in a little more depth.
At the beginning of the year, students are going to be clustered around similar ideas and similar approaches to things. During that time, we won’t press for them to break away from those similarities, but rather will focus on engaging them with the STEM practice skills so they can become proficient at using them.
Even if their ideas are relatively similar to one another and we aren’t yet seeing a lot of that higher order thinking, which is eventually the goal, students must have time to become familiar with the practices and process that make up science and engineering.
By January, however, we as teachers are starting to push them to really think out of the box and try things differently. We’re expecting more independence in their use of process, which they’re now somewhat familiar with. This is a continuum that goes on January through June.
Now, it doesn’t mean that the teacher isn’t involved and students are sent off by themselves and only turn something in at the end of the day, which then gets evaluated. Rather, our goal is to develop independent proficiency with processes. While the students are working in these groups, we expect them independently to have with proficiency the processes.
It doesn’t mean they’re perfect, but our goal is that by mid-January students are able to answer questions or solve problems as scientists and engineers. That enables us as teachers to change our focus to extending the students’ performance expectations with the goal of much deeper expression of higher order thinking. That higher order thinking is what will occur throughout the rest of the year, with more and more independence for students.
Teachers will need grade-level-specific, nurturing curriculum to help them cultivate student understanding, engage students in the practices, and give them rich, hands-on experiences that put them in the role of scientist or engineer.
This extends far beyond mapping, and requires that teachers use resources that put students in an inquiry context. That’s what curriculum is all about.