Looking for “sporty” ways to teach your students about science? Here are some resources from the Middle School Portal 2 Digital Library. You can do your own searches at MSP2 Collection of Resources.
Science of NFL Football
In America, the autumn season means two things–back to school and back to football. To celebrate both events, NBC News’ educational arm, NBC Learn, teamed up with the National Science Foundation (NSF) and the National Football League (NFL) to release the “Science of NFL Football”–an informative 10-part video series that explores the science behind America’s most beloved sport. Made especially for students and teachers as they head back to the classroom, these videos are aligned to lesson plans and national state education standards. Lessons plans for middle school students that accompany each video can be found at http://lessonopoly.org/node/10804.
For each segment in the series, an NSF-supported scientist explains the selected scientific principle, while NFL athletes describe how these principles apply to their respective positions. Series scientists supported by NSF are: University of Florida aerospace engineer Tony Schmitz, Clemson University mechanical engineer John Ziegert, University of Maryland physicist Sylvester “Jim” Gates and Bryn Mawr College mathematician Rhonda Hughes. Also participating in the series are two scientists from the University of Connecticut, kinesiologist Douglas Casa and nutritionist Nancy Rodriguez. Current players and retirees who participated in the video series include:
Former NFL Players:
* Orlando Pace, Tackle
* Hardy Nickerson, Linebacker
* Antonio Freeman, Wide Receiver
* Joey Harrington, Quarterback
* Marshall Faulk, Running Back
* Craig Hentrich, Punter
* Morten Andersen, Place Kicker
* Ryan Kuehl, Long Snapper
Current NFL Players:
* Hines Ward, Wide Receiver, Pittsburgh Steelers
* Antwaan Randle El, Wide Receiver, Pittsburgh Steelers
* Scott Paxson, Nose Tackle, Pittsburgh Steelers
* Patrick Cobbs, Running Back, Miami Dolphins
* Yeremiah Bell, Safety, Miami Dolphins
* Jake Long, Tackle, Miami Dolphins
* Dan Carpenter, Place Kicker, Miami Dolphins
* Lousaka Polite, Running Back, Miami Dolphins
The Science of Speed
The Science of Speed, produced for the National Science Foundation (NSF) and written and hosted by Diandra Leslie-Pelecky, explains the scientific principles that are so essential to the NASCAR experience. Viewers learn how science makes cars powerful, agile, fast and safe – and how these same principles affect their own cars.
Science of the Olympic Winter Games
NBC Learn, the educational arm of NBC News, teamed up with the National Science Foundation (NSF) to produce Science of the Olympic Winter Games, a 16-part video series that explores the science behind individual Olympic events, including Downhill and Aerial Skiing, Speed Skating and Figure Skating, Curling and Hockey, and Ski Jumping, Bobsledding and Snowboarding. Each video is complemented with lesson plans which include fun classroom activities. The lesson plans were written by teachers at Academic Business Consultants for grades 6-9 and are aligned with California State Standards.
The Exploratorium website provides creative educational materials for introductory physics students and teachers. Users can learn about the science behind a homerun, find out how the physics of balance helps enthusiasts surf the waves, and discover the physics behind many other popular sports. The site is equipped with interviews, enticing images, and enthralling descriptions. Visitors can find interesting articles covering sports topics such as fitness challenges for climbers and the way balls bounce.
Paintball: Chemistry Hits Its Mark
The first paintballs were fired by foresters and ranchers to mark trees and cattle. In the 1980s, someone got the idea that it would be more fun to fire paintballs at people than at trees and cows. Thus the sport of paintball was born. In this article from ChemMatters, learn how the one billion paintballs manufactured each year are a product of chemistry and engineering. You’ll need to scroll down a couple of pages to get to the Paintball article.
Since the late 1800s, chemists have been called on to find ways to produce lighter, faster, and durable golf balls. This site traces the chemistry that has transformed the ball and promises to create a ball that will “soar like a cruise missile, hit the ground at a very shallow angle, and roll for up to 40 yards on hard ground.”
Do you have what it takes to win the Ultimate Race? Find out with the Tryscience Extreme Challenge! Compete on seven courses in four sports- mountain biking, kayaking, rock climbing and snowboarding. You must train and apply the science behind the sport to beat the challenge time and earn each course medal.
Come to the Middle School Portal 2: Math and Science Pathways online network to discuss this and many other topics and connect with colleagues!