Engage Your Students in Engineering and Art with Mister Marx's Rube Goldberg Activities!

My bundle of three Rube Goldberg activities offers a fun and engaging way to teach your students about engineering, art, and critical thinking.

With this bundle, you'll get three activities that will have your students learning and creating their own Rube Goldberg machines in no time. In the first activity, students can analyze a Rube Goldberg machine comic, making predictions and learning about the engineering behind it. In the second activity, students can grapple with constructing Rube Goldberg machines in a board game or app game (game not included). And in the third activity, students can use their creativity to create their own Rube Goldberg machine and comic, expressing their own ideas and engineering the machine.

But that's not all! These activities are perfect for students interested in engineering, art, or both. They'll help your students develop their critical thinking, analysis, and ability to describe complex systems in words. Plus, you can purchase the three activities separately - or as a bundle at a discounted price of 30% off!

Don't miss out on this exciting opportunity to engage your students in Rube Goldberg machines. Purchase my bundle of three Rube Goldberg activities today and watch your students learn, create, and have fun in the process. With my activities, teaching engineering, art, and critical thinking has never been easier or more enjoyable.

And don't forget to visit my TPT Store for more educational resources and information. Your students will thank you!

Join the ongoing Mister Marx Math Adventures Giveaways and win a Mister Marx Math Mug! Engage, explore, and spread the joy in math for a chance to win. 🎉🧮

🔗 Click here to join our latest giveaway. This link will always direct you to our current live giveaway.🔗 Mister Marx Math Adventures Current Live Giveaway

Previous
Previous

Discover the Magic of Linear Relationships with the Create Your Own Pattern Project - Squares!

Next
Next

Unlock the Transformative Power of Algebra with Geometric Linear Growth Patterns