NSF Awards: 1433788
2018 (see original presentation & discussion)
Grades 6-8
We present the ITEST SPARCS project being conducted at University of Nebraska at Omaha. SPARCS aims to help middle school teachers integrate Computer Science lessons into the classes they teach, and spark student interest in pursuing computing-related educational pathways and careers. We have worked with teachers from diverse disciplines including STEM, language arts, social studies and music. We present our experiences and samples of student-created computational artifacts from the past year of SPARCS.
Irene Lee
Research Scientist
Thanks for this presentation video. It captured the PD and instantiation in the classroom well. I had a question about how middle school students formulate an interesting problem within a teacher chosen topic. What is the process you use to get from the topic to some aspect of that problem that interests students? Are there specific techniques you use? Also, how does the teacher help students decide on (usually narrow) the scope of the problem to be addressed? This may difficult for novice to CT teachers to do when they are just becoming familiar with the technology environments themselves.
Harvey Siy
Associate Professor
Hi Irene, thanks for your question. We ask the teachers to define a broad problem that contributes to an actual learning objective in their class. We figure that the teachers would know the problem area better than we ever could and are in a position to hep the students scope the specific problem they are working on.
We also held monthly meetings (Disciplinary Commons-style) over the year so teachers can share their lessons with the cohort and get feedback, and also ask for help with technologies that are not familiar to them.
Alex Lishinski
To follow up on this, I'm wondering whether you have a sense that teachers from some subjects have a harder time conceptualizing their lessons in this problem-based format than others. Have you found this to be the case or does it typically come easy to all of the teachers? I'm also wondering if there are particularly striking examples you could report of teachers approaching this in a particularly novel way.
Allison Theobold
What are different methods you have seen from teachers in different subject areas to engage students in problem based CS thinking? Our team is creating curriculum that infuses computer science into middle school classrooms, across subject areas. However, in making these lessons, we have found that certain subject lend themselves more naturally to algorithmic thinking. I am interested to know how are teachers, in these harder to reach, subject areas are engaging in problem based thinking in their classrooms.
Harvey Siy
Associate Professor
Hi Alex and Allison, thank you for your questions! Indeed there are some subjects where algorithmic-based problem solving is not obvious. For example, in Music, creativity in composing music is important, but the music teachers found it hard to tie it to a problem that is relevant in the student's community. Instead, the teachers reframed the problem to focus on what they can do to improve music literacy in the community. Students then were able to come up with ideas for various games such as identifying the correct note on sheet music, guessing the pitch, etc.
Katie Rich
Graduate Student
Hi Harvey,
I found it really interesting that your video makes explicit connections to several problem solving frameworks. How do your participating teachers and students think about identifying problems that can be solved computationally? How do they get to a solution plan that using coding, specifically?
Harvey Siy
Associate Professor
Hi Katie, thanks for your question. We ask teachers to identify a broad problem that contributes to a actual learning objective in their class. The students come up with a more specific problem that can be solved computationally. Most of these can be boiled down to a few types: storytelling, simple games and quizzes, simulations, simple mobile apps, etc. Over the course of the summer PD, we showed teachers different examples of these and they in turn made suggestions to their students based on the specific problem they worked on.
Katie Rich
Nirit
Interesting project. Did you get also feedback from the students about their motivation to continue learning CS? i.e. spark their interest in CS?
Harvey Siy
Associate Professor
Hi Nirit, thank you for your question. We could not collect student data directly because we don't have the approval of the school districts. From the teachers, we are able to glean some insights on student response. According to the teachers, most students do wish to continue learning more about CS. Interestingly, most teachers report also that they had better engagement from students who would otherwise not pay attention in their classes!
Allison Theobold
Very interesting project! It is great to see students engage in computer science in a hands-on classroom, rather than solely with route memorization. In the professional development your team holds for teachers, how do you enhance their ability to create a problem based approach in their classroom? Do you have them engage in the problem solving process themselves? Do you have discussions around possible student misconceptions and/or frustrations and how to resolve them?
Harvey Siy
Associate Professor
Hi Allison, our PD approach is essentially, "I do, we do, you do." We modeled a problem solving approach for the teachers, walking through a problem from definition to implementation. We then organized a week-long student summer camp (called Student Academy) and worked with the teachers to help them prepare lessons and engage the students in solving a problem. The teachers then prepared a problem-based lesson for their classroom and teach it themselves at some point in the academic year.
Throughout the Student Academy and academic year, we held meetings with the teachers to give them a chance to reflect and share experiences. While we did not explicitly ask about misconceptions and frustrations, teachers do share a few of these that arise from the lesson, such as some students not really understanding what is expected of them. It is a good idea for us to explicitly prompt the teachers about these -- we will add this to the teacher reflection sessions. Thanks!
Further posting is closed as the event has ended.