Do you have a student or two who might make a great crime scene investigator? How might you bring a version of the board game Clue into the classroom? Help students use forensic science and their investigative skills to determine whodunit and the cause of death. High school students, especially juniors and seniors, should definitely be thinking about college and beyond. For instance, if there were an outbreak of illness at a carnival, how would your students solve that problem? Or, even more broadly, how might they create a community of the future? The Association for Middle School Education, for example, provides several great scenarios that promote STEM learning. Most importantly, students need to be able to pull from their knowledge of different subjects as they work toward an answer. Pose problems that students can relate to and that can be solved in different ways, and let students work together and provide evidence of their thinking. Make sure they are fluent in basic skills like addition and subtraction, measurement, and identifying shapes.įor upper elementary and middle school students, consider project-based learning. ![]() Above all, it’s important to help students get a solid foundation. Explore how simple classroom machines like staplers work. Sing “Old MacDonald Had a Farm” and use it as a springboard to think about the ecosystem of a farm. ![]() If you teach younger students, create an environment that encourages observation and asking questions that begin with Why … ? or How does … ? Go on nature walks. But there are simple, unintimidating, and effective ways to implement a STEM curriculum in your classroom that have nothing to do with teaching R2-D2 to dab. There’s a big difference between teaching students to remember to carry the one and teaching them how to code. So, teachers everywhere are expected-by parents, administrators, etc.-to provide a STEM-rich curriculum. That effort has been formalized in many ways, including using the language of STEM in Next Gen Science Standards. It would also support teachers to, well, teach students those skills. In 2009, the Obama administration announced its plan to support STEM curriculum that would both encourage and train students to pursue careers in those fields. students were not keeping pace with other students and would thus not be prepared to work in the fastest-growing career sectors, which generally fall under the STEM umbrella. STEM grew in popularity due to the concerns of politicians and other leaders that U.S. Referred to as SMET at first, which, if we had to guess, might also be the name of a Scandinavian dessert, Ramaley changed the acronym around because she didn’t like how SMET sounded. While working as director at the National Science Foundation in the early 2000s, Ramaley came up with the term to describe the blended curriculum she and her team were developing. Like most things, STEM was around before it had an actual name. Education buzzwords and the politicians who love them … It’s a blended approach that encourages hands-on experience and gives students the chance to gain and apply relevant, “real-world” knowledge in the classroom. STEM curriculum intentionally melds these disciplines. The key term when talking about STEM is integration. Engineering can include topics like electronics, robotics, and civil engineering. Technology includes topics such as computer programming, analytics, and design. Although the science (biology, chemistry, etc.) and math (algebra, calculus, etc.) parts of the acronym might be easy to figure out, the technology and engineering parts might be less clear. It’s such a popular term that it means a lot of different things to a lot of different people. Skills, the thinking goes, that are taught in those subjects. STEM curriculum blends those subjects in order to teach “21st-century skills,” or tools students need to have if they wish to succeed in the workplace of the “future.” The idea is that in order to be prepared for jobs and compete with students from different parts of the world, students here in the United States need to be able to solve problems, find and use evidence, collaborate on projects, and think critically. STEM stands for science, technology, engineering, and math. ![]() So how do we talk intelligently about STEM education and where it needs to go? The first step is understanding the history of this term and what it means for schools. It’s gotten to the point where, similar to the organic and low-fat labels in the food industry, STEM could mean very little if you see it on toys or educational products. STEM might win the award for the most talked-about education buzzword of the last 10 years or so.
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