Let Your Students Experience Science as a Verb, not a Noun.

Science education has never been more important. Developing an understanding of our ecological place in the world, finding ways to clean up our emissions and pollution, and solving some of the world’s largest problems around food, water, and health are all vital to our growth as a species. The landscape of science is constantly evolving and so are the skills required for a successful career in Science. Traditional teaching methods typically fall short in preparing students for the dynamic nature of modern scientific work. This post will share some of the benefits of hands-on, experiential, and authentic education and give an example of how I set up my science classroom for students to experience Science as a verb, not a noun. 

The Drawbacks of Traditional Teaching Methods

Traditional science education follows a textbook, relies on lecture, and asks students to memorize a diverse range of information without an understanding of how that information all connects. While some foundational knowledge is important, traditional teaching methods don’t give students an opportunity to explore the action of science and don't allow them to practice asking their own questions, developing their own hypotheses, and using critical thinking skills. 

Hands On and Authentic Learning

Providing students with opportunities to get their hands dirty and to experience science first hand gives them a chance to engage deeply in the science they’re learning while promoting the skills required for a career in science. Not only is it more fun on the most basic level, but it makes learning dynamic and encourages curiosity, collaboration, and the application of theoretical knowledge to real-world problems. Making those opportunities authentic by connecting directly to the real world, preferably your school’s neighborhood, campus, or community, shows students that the science they’re studying has a direct connection to their everyday lives. For example, having students collect data on the temperature gradient of their neighborhood and comparing it to the amount of trees planted nearby can give them a direct connection and deeper understanding of how neighborhood planning can impact the effects of rising temperatures.

Evolving From Students to Scientists

In my Science classroom, creating a space where students could be active and engaged scientists was vital to their growth and understanding. While there were still times that called for traditional education methods in order to distill some foundational knowledge, for the most part my Science lab was a place of constant activity. Instead of handing over a list of ingredients and step by step directions for students to follow for a class period, my labs and projects lasted multiple days and followed these steps:

• Question Development - After observing a phenomena or learning something new about a subject, students developed their own research questions that allowed them to explore the subject more deeply and more tailored and specific to their own interest in the subject.

• Experiment or Research Planning - With a research question considered, students worked to design their own plan for experimentation or research in an effort to answer that research question. At this point, they would present their plan to me in order to receive feedback and to check on safety, feasibility, and timing. 

• Carry out Experiment or Research - After approval, students carried out their experiment or began their research, collecting data along the way that helped them to confirm or challenge their hypothesis. 

• Analysis and Conclusions - After collecting data, students analyzed their findings, created representative data sets, and wrote a conclusion based on what they found as well as a full report of their process

The outcome? Students were far more deeply engaged in the topic at hand because they had full ownership over the process. Not only did they specifically develop their skills in generating questions from observation, predicting outcomes, designing experiments, data collection and analysis, and scientific communication, but they also came away with a stronger understanding of the topic at hand. 

Develop Scientists in Your Classroom

The shift from a traditional science classroom to an active, experiential, and authentic learning environment made a dramatic difference in our Middle School science program. Students came away much more prepared for the challenges ahead in High School and many developed a new love for Science that they didn’t have before. I encourage you to consider your students as scientists, move on from the traditional cookbook science labs, and give your kids a chance to explore their curiosity, design their own experiments, and engage deeply in the skills they need to become successful scientists. 

Even better, show them how the skills they’re learning in your classroom are applied in science occupations by introducing them to scientists that use those skills every day. Reach out to scientists in your community, connect them with your students, and help develop the next generation of scientists that will solve our biggest problems. 

Resources

Check out these resources for more information and ideas to incorporate into your classroom:

• Authentic STEM research, practices of science, and interest development in an informal science education program by Bobby Habig and Preeti Gupta

• Quality NGSS Lessons & Units

• NatGeo Citizen Science Projects

• SciStarter Citizen Science Projects

At Trophic Education, we design educational programming that allows students to experience science as a verb. If your organization is interested in expanding your outreach opportunities, please reach out or find out more by visiting www.trophiced.org