Join us on a math walk where we look for geometric shapes at Dallas City Hall. The building reminds us of a triangle embedded in the ground. The result looks like a trapezoid. What is a trapezoid? What other shapes can you recognize in this building? How can we measure the angle made by the building? This video was supported by City of Dallas Office of Cultural Affairs.... CONTINUE READING
Ronald Kirk Bridge is a pedestrian bridge over the Trinity River in Dallas, connecting downtown Dallas and West Dallas. It is over 2,000 feet long and 60 feet wide. What would happen if water froze on the middle of the Ron Kirk Bridge? Could we create an ice rink on this bridge? talkSTEM members explore this question and estimate how much weight an ice rink would add to the bridge.... CONTINUE READING
Students from St. Philip's School & Community Center on a math walk stop at the school chapel. They wonder what the maximum number of people is that could fit in this space given social distancing protocols during the Covid pandemic? They use the patterns on the carpet, and some simple estimation strategies to answer their question. This material is based upon work supported by the National Science Foundation under Grant DRL 2115393. Any opinions, findings, and conclusions or recommendations... CONTINUE READING
At Camp Whispering Cedars, Girl Scouts climb a winding series of steps to reach the top of an observation deck, where they can stargaze or have meetings. We wonder how they might estimate exactly how many people could have fun stargazing sleepover party on the deck! Supplementary Activity Guides for this video to extend student learning for K-12 grade levels are freely available here: https://talkstem.org/tal... CONTINUE READING
Ever look into a pool and think, “Wow – that’s a lot of water!” This thought prompted us to consider exactly how many showers one could take using water in the pool at Camp Whispering Cedars. We started by measuring the surface area and perimeter of the pool before determining volume, using the formula, Volume=(Area)(Height). You’ll be amazed at what we discovered! Supplementary Activity Guides for this video to extend student learning for K-12 grade levels are freely available here:... CONTINUE READING
The Flying Pancake is a fun name for a unique airplane that is no longer in use. We wonder as to why this aircraft was designed to have a flat wing-like body giving it such a large surface area? We explore this unique design and come to understand how this design met its goals but also came at a cost. Supplementary Activity Guides to extend student learning at the Frontiers of Flight Museum for K-12 grade levels are freely available here:... CONTINUE READING
The Command Module of the Apollo VII mission has a truncated cone shape which was essential to its goals of leaving the earth's atmosphere and then safely re-entering the atmosphere to bring its crew back to Earth in 1968. Here, we wonder how the shape of the module was an important aspect of its design and learn about cone shapes, air resistance, and surface area. Supplementary Activity Guides to extend student learning at the Frontiers of Flight Museum for K-12 grade levels are freely availabl... CONTINUE READING
We notice that the bottom surface of the Command Module of the Apollo VII space mission looks different from the material making up the rest of the module. We learn that this difference is a critical part of the design of the module that brought home the crew of 3 astronauts in 1968. Further, the heat shield material that was developed for the command module’s bottom surface is now something we use in everyday life – great example of innovation that ends up being used far more widely than an... CONTINUE READING
SpaceShipOne is a rocket-powered aircraft with sub-orbital spaceflight capability at speeds of up to 3,000 ft/s (900 m/s). Its unique design features a “feathering” atmospheric reentry system where the rear half of the wing and the twin tail booms fold 70 degrees upward. Watch the video to understand the function of this unique design. Also, learn how you can do a simple experiment at home to see the rationale behind this design. Supplementary Activity Guides to extend student learning at th... CONTINUE READING