CA BOCES Success Stories
Stories of Success from School Districts and CA BOCES Instructional Support Services
A new course this year for sixth graders at Olean Intermediate Middle School (OIMS) is called Computer Literacy. The teacher is Mr. Penston and he’s been giving his sixth graders many new experiences with the JASON Learning STEM curriculum bringing in coding and helping them practice their keyboarding skills. Mr. Penston has been working on planning out a curriculum from JASON Learning to give students different activities in sixth grade that will hit some of the new New York State Computer Science & Digital Fluency Standards (CSDF). The kids are having a great time as they learn to collaborate and problem solve. One of the projects that really got the kids excited was having the students use Blockly software to program Dash robots to navigate a path on their classroom floor. Mr. Penston taped off a path that the students needed to try to have their Dash robot travel while not leaving the path. Mr. Penston used blue painters’ tape to construct a winding path from the front of his room to the back. Students used Blockly to create a programming code to give the Dash robot specific instructions on how to move. As the students took turns to run their program with the robot on the path they would make note of any issues or missteps and go back to their Blockly program to fix the error. When a student made it farther than anyone else, Mr. Penston would write the student’s name on the floor in pencil where their robot stopped or left the path. This added another level of competition and also motivated the sixth graders to continue to improve their code. This section of the course using Blockly with the Dash robots got Mr. Penston’s students into learning how to plan, operate their plan, and then reiterate and try again. Nothing is easy or handed to them. They can watch others try it out and learn together, all the while trying to set a new mark for the farthest along the path. This helps expose all of the sixth graders to many of the CSDF standards, all in one class. The students took a survey at the end of the Dash project and they were very positive about the time spent troubleshooting and adapting their coding. Moving forward, the students took the next few weeks to practice keyboarding in class to help them better prepare for the NYS 3-8 assessments which are moving to computer-based testing in ELA, Math, and Science. These sixth graders will be taking ELA and Math this year on a laptop and the more confidence they can have typing, the better they will do on those assessments. Mr. Penston is also going to start having the students take the next step from Blockly to Scratch programming and will be having the Olean sixtth graders working on creating their own video game in Scratch. Exciting times are ahead at OIMS! Thank you, Mr. Penston, and good luck programming to your sixth graders. By: Mark Carls, Senior Coordinator for Curriculum and Professional Development Science education thrives when students see real-world applications that connect with their surroundings. One powerful tool that helps make science relevant and engaging is the use of "local phenomena" – natural or human-made events or occurences in students' own communities that are related to science principles. By focusing on what's familiar, we can foster curiosity, enhance understanding, and make learning truly memorable.
Why Use Local Phenomena in Science Education? 1. Increases Engagement and Relevance Science often feels distant or abstract to students when presented solely through textbooks or unfamiliar examples. However, by linking lessons to phenomena in their lives, we can bridge this gap. Observing phenomena they already know or encounter daily, like local weather patterns, wildlife behavior, or agricultural development, makes science more relevant. When students see how science directly impacts their lives, they are more likely to engage, ask questions, and pursue knowledge. 2. Builds a Foundation for Inquiry-Based Learning Using local phenomena taps into students’ natural curiosity. When they notice unusual events or patterns in their environment, it often leads to “why” and “how” questions, creating a perfect foundation for inquiry-based learning. For instance, noticing how leaves change color at different times in different parts of town might lead to investigations into the impact of temperature, sunlight, and tree species on the process of photosynthesis. With local phenomena, students take ownership of their learning as they seek answers to questions that genuinely interest them. 3. Encourages Systems Thinking Many scientific concepts are interconnected, forming complex systems. Local phenomena often illustrate these connections naturally, as they occur within systems students can observe firsthand. Teaching about water cycles through the context of a local river, for example, enables students to understand not only the cycle itself but also its impact on local wildlife, soil, and human communities. This systems thinking approach deepens comprehension and teaches students to view scientific concepts as part of an interconnected web instead of isolated facts. 4. Fosters Environmental Awareness and Stewardship Learning about science through local phenomena can foster a sense of responsibility toward the environment. When students study the impact of pollution on a nearby lake or observe erosion along a local road, they not only learn scientific concepts but also develop empathy for their surroundings. This awareness can inspire students to consider how their actions affect the environment and lead them to become stewards of their community. Practical Strategies for Using Local Phenomena in Science Teaching 1. Start with Community Observations Begin by encouraging students to observe their surroundings and identify things that pique their curiosity. For example, a local pond may have recurring algae blooms, or the temperature in their town might change noticeably from one neighborhood to another. Students could take photos, jot down observations, and bring them back to class, where these curiosities can serve as the starting points for scientific exploration. 2. Utilize Citizen Science Projects Many communities offer citizen science programs where students can contribute real data to local or national studies. Programs like bird counts, air quality monitoring, or even invasive species tracking can engage students in local issues while teaching them the fundamentals of data collection, scientific observation, and analysis. This hands-on experience empowers students to understand how scientific research contributes to community well-being. Check out this Wakelet for a collection of citizen science projects. 3. Collaborate with Local Experts Partnering with local scientists, environmental organizations, or government agencies can provide valuable insights and expertise. Local biologists, meteorologists, conservationists, or engineers can visit classrooms, lead field trips, or offer virtual sessions that help students connect classroom learning with real-world applications. Their personal stories and knowledge about local phenomena add depth and authenticity to the learning experience. Additionally, I recommend reaching out to local colleges, such as St. Bonaventure and Alfred, to invite professors and college students in to share what excites them about their research. The University at Buffalo also has an entire day dedicated to students exploring STEM options for college and careers. Click here to learn more about UB's Science Exploration Day. 4. Design Phenomena-Based Units Construct science units around specific, local phenomena. For example, if students live near an area prone to flooding, a unit on weathering and erosion could cover topography, weather patterns, soil science, hydrodynamics, climate change, and decision making in society. Using a familiar event as the focal point helps students relate complex scientific concepts to real events they've experienced or observed. 5. Integrate Across Disciplines Science can be linked to other subjects through local phenomena. For instance, while studying a nearby river, students could explore its significance in local history, learn about conservation policies in social studies, or even write reflective essays in English about its role in the community. Integrating multiple disciplines provides a holistic view, reinforcing the importance of the phenomenon across contexts and giving students a richer, more comprehensive learning experience. Incorporating local phenomena into science teaching is a powerful way to make learning meaningful, memorable, and engaging. By starting with what’s familiar, students gain a deeper understanding of scientific concepts and see their relevance to daily life. As students become active learners, observers, and even researchers in their communities, they learn science in ways that traditional instruction might never accomplish. Ultimately, teaching through local phenomena can transform students from passive receivers of information into curious, committed learners and informed citizens, prepared to engage with and care for the world around them. By: Kelli Grabowski, STEM Coordinator We ask for, and often receive, suggestions from our teachers and administrators for new products to add to our warehouse. While we try to keep our ear to the ground as far as new products that have a wide appeal and are something we can actually kit, there are lots of things out there that we just don’t know about. Sphero RVR+ is a great example of this.
We have quite a few items in our warehouse made by Sphero, but most of it seemed to be for our younger elementary students and their teachers. One area teacher reached out about Sphero RVR+ and we are pleased to now have these items on our shelves. Here’s a bit about Sphero RVR+ and how these robots can be incorporated into your classrooms. All told, there 2 classroom sets for booking. Each set has six Sphero RVR+ programable robots, accessories, and an accompanying Educator Guide. The Educator Guide is in-depth and has CSDF standards aligned lessons. The robots are drivable right out of the box, packed with a diverse suite of sensors, and built for customization. RVR+ is expandable and made for novice to advanced learners in middle and high school. Here's a bit more from the Sphero website: ENGAGE THE ENTIRE CLASS: Support your learners with 6 RVR+ robots, accessories, and Educator Guides. 1 RVR+ engages 1-2 students, making it ideal for pair programming and collaboration. TEACH WITH CONFIDENCE: The RVR+ Educator Guide contains tips for a successful cross-curricular rollout of RVR+ in your classroom as well as standards-aligned guided lessons and activities. ENDLESS CLASSROOM POSSIBILITIES: The free Sphero Edu app contains hundreds of activities to teach coding and computer science with RVR+, and advanced programmers can level up with Python using compatible 3rd-party hardware. At this point, we only have 2 class sets on the shelves. If demand is high, we will certainly add more. Check them out and see if this might meet your teacher/student needs! By: Alexandra Freer, Coordinator for Media Resources |
Our TeamStories come from school districts within the CA BOCES region and are authored by our Instructional Support Services Team. Archives
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