5 powerful ways to link STEM lessons to real-world applications

by Admin
Linking STEM concepts with the real world helps students establish a foundation for lifelong learning and inquiry.

Key points:

“Why are we learning this?”

This is a question every educator has faced before. To be fair, it’s a valid question. Students are naturally curious, and it’s normal for them to wonder about the knowledge that they’re acquiring. The real issue is how we, as educators, choose to respond to them.

In my experience, teachers have two standard replies to this question:

  1. They’ll try to explain the subject in detail, which results in a long-winded answer that confuses their students and doesn’t satisfy them.
  2. They’ll argue that the information is important because it’s on an upcoming test, which typically leaves students feeling frustrated and disengaged.

Either way, the result is the same: Students lose all legitimacy in the lesson and they’re unable to connect with the content.

If we want our students to engage with the material in a way that’s memorable, meaningful, and fun, then we need to help them discover why it is important. Teachers can accomplish this by introducing real-world connections into the lesson, which reveal how the information that students acquire can be practically applied to real-world problems.

Without building these connections between the concepts our students learn and real-world applications, students lose interest in what they are learning. Using the strategies below, you can start to build student investment into your classroom content.

The everyday enigma

Use everyday items that operate with mystery and frame your lesson around them. Your students’ curiosity will drive them to learn more about the object and how it functions. This allows students to see that the small concepts they are learning are leading to the understanding of an object that they interact with daily. When choosing an item, pick one that is familiar and one that has multiple STEM elements. For example, you could use a copper wire to discuss electrical currents, a piece of an automobile to explore chemistry and combustion, or shark teeth when teaching about animal adaptations and food chains.  

Interest intersect

Connect your students’ personal hobbies to the subject matter. For instance, if you have a student who is really passionate about soccer, try having them create a mini poster that connects the sport to the concepts learned in class. This gets them to think creatively about the purpose of content. This strategy has the additional benefit of helping teachers learn more about their students, creating opportunities to build communication and rapport.

Get an expert

Invite professionals (scientists, engineers, etc.) to talk with your class. This gives students a first-hand account of how the concepts they are learning can be applied to different careers. If you’re teaching chemistry, consider inviting a nurse or doctor to share how this subject applies to human health. If you’re teaching math, a local architect can expound on how angles and equations literally shape the homes in which students live. Not only does this provide a real-world example of students, but it helps schools connect with their community, creating vital relationships in the process.           

Problem to progress

Create an engineering investigation based on a local, real-world problem. For instance, I once knew a music teacher who was frustrated because pencils would regularly fall off his music stands. I challenged my 5th grade students to create a solution using the engineering design process. Not only did they succeed, but the experience allowed my students to see the real-world results of the inventions they created. When students understand that their work can make a tangible difference, it completely changes their relationship with the material.  

Project-based learning

Project-based learning is driven by inquiry and student ownership. This allows students to make contributions to the real world through hands-on investigations. What makes these inquiry-focused lessons so useful is that students are the driving force behind them. They choose how to approach the information, what questions to pursue, and what solutions they want to test. This makes the learning intensely personal while taking advantage of students’ natural curiosity, creativity, and critical-thinking skills. If you need a little help getting started, consider using one of these Blue Apple projects from Inquiry Outpost.

By linking our STEM lessons to real-world experiences, teachers can provide a meaningful answer to the age-old question of, “Why are we learning this?” We can equip our students with the skills to not only navigate everyday challenges but also create positive change within their own communities. So, let’s empower young learners to see the relevance of STEM in their lives, and lay a strong learning foundation that will support them well beyond the classroom.



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