Category Archives: K-12

About or related to primary (k-12) science and engineering education. Likely of interest to teachers and administrators. Teachers may also find many of the posts we feel are of interests to students interested in science and engineering useful.

Adventures in Synthetic Biology

cover graphic of Adventures in Synthetic Biology Nature offers its first ever comic: Adventures in Synthetic Biology (via easternblot). Learn more about the creation of the comic. The graphics are nice, though honestly the interface to view the comic could be better. The pdf version is larger and easier to read.

I think it is great to experiment with using different ways to present scientific ideas. This comic is a good example of one of those ways. Also see several books that use cartoons to present ideas: Cartoon Guide to Genetics, Cartoon Guide to Physics and Cartoon Guide to Chemistry (all by Larry Gonick).

More comic presentations from howtoons.

Related links:

Center for Engineering Educational Outreach

Center for Engineering Educational Outreach at Tufts University.

The core purpose of the CEEO is to Improve Engineering Education for all Ages from the K – 12 student, to her parents, to the university engineering and liberal arts student. Four “towers of work” make up the Center: (1) engineering education research, (2) educational tool development, (3) teacher/volunteer support, and (4) a “bakesale” tower that funds a lot of these efforts.

The center provides a number of excellent resources including:

  • Robotics: Fundamentals of IT and Engineering – “to design a curriculum for an after school program that will integrate robotics into science, technology, engineering and mathematics courses in the Boston Public Schools.”
  • Student Teacher Outreach Mentor Program (STOMP) – “places engineering students into classrooms and after school programs to support engineering education. The students aid educators in designing and implementing hands-on activities that teach engineering concepts ranging from the design process to gear ratios to digital logic.”
  • Pre-College Engineering for Teachers (PCET) – “professional development program for K-12 teachers sponsored by the National Science Foundation. Teacher participation starts during a ten day summer workshop, and continues during the school year. The workshop introduces teachers to different strategies for incorporating engineering design into their classrooms, and each participating teacher is required to include a unit about engineering design in their classroom during the following school year.”
  • Robotics Academy

A great resouce.

Science Toys You Can Make With Your Kids

Simple steam boat

Science Toys You Can Make With Your Kids

Photo: the simplest steam engine you will ever see. It has no valves, no moving parts (in the traditional sense of the phrase), and yet it can propel it’s little boat easily across the largest swimming pool or quiet duck pond.

The site includes many simple projects to create toys and teach scientific principles in a fun way with simple materials. Gonzo Gizmos, is the book the site is based on.

Projects include: the impossible kaleidoscope, a simple rocket engine, building a radio in 10 minutes and building your own solar battery.

This cool site is definitely worth a visit.

GAO Report: Federal Science, Technology and Engineering Trends

GAO Report: Federal Science, Technology, Engineering, and Mathematics Programs and Related Trends

13 federal civilian agencies reported spending about $2.8 billion in fiscal year 2004 for 207 education programs designed to increase the numbers of students and graduates or improve educational programs in
STEM (Science, Technology, Engineering and Math) fields. NSF and NIH each account for a bit over 1/3 of the spending.

University officials frequently cited teacher quality as a key factor that affected domestic students’ interest in and decisions about pursuing STEM degrees and occupations. Officials at all eight universities we visited expressed the view that a student’s experience from kindergarten through the 12th grades played a large role in influencing whether the student pursued a STEM degree.

officials at many of the universities we visited told us that some teachers were unqualified and unable to impart the subject matter, causing students to lose interest in mathematics and science.

Estimated Changes in Numbers of International Students in STEM fields by Education Levels from the 1995-1996 Academic Year to the 2003-2004 Academic Year

Education level Number of international students, 1995-1996 Number of international students, 2003-2004 Percentage change
Bachelor’s 31,858 139,875 +339
Master’s 40,025 22,384 -44
Doctoral 36,461 7,582 -79
Total 108,344 169,841 +57

Science and Engineering Apprenticeships

Office of Naval Research Science & Engineering Apprentice Program (SEAP)

SEAP provides competitive research internships to approximately 250 high school students each year. Participating students spend eight weeks during the summer doing research at Department of Navy laboratories.

Requirements:

  • High school students who have completed at least Grade 9. A graduating senior is eligible to apply.
  • Must be 16 years of age for most laboratories
  • Applicants must be US citizens and participation by Permanent Resident Aliens is limited.
  • The application deadline is February 17, 2006.

Apply online for the apprenticeship/internship. See more internship oportunities at externs.com.

Innovative Science Education

Great Scientific Debates

Teach History and the Nature of Scientific Inquiry, History and Philosophy of Science: Overview of Engaging Students in Science Debates.

To take students deep into the process of the development of a scientific idea, we needed to engage the students not only in the real world data and documented history, but also in the process of constructing arguments. Students worked in collaborative groups of 4 in order to write, film, edit, and present their historical scientific debate. In order to prepare them for weighing abstract concepts using available evidence, students learned much of their content through hands-on labs, as well as internet research, related to their selected scientists.

This is a great example of innovating in education. The students in the example were in5th grade at Turtleback Elementary in San Diego.

The Apple site has a great deal of information on the entire process.

High School Science Outside the Classroom

Science and engineering outside the classroom in two Arlington, Virginia high schools: Yorktown High School and Washington and Lee High School.

At Yorktown, Pumpkins Are a Physics Lesson by Ryan Self:

The students’ machine featured a bike wheel, balanced vertically and supporting a large pole. At the end of the pole, a basket with a special latch was affixed to hold, and eventually fling, the pumpkin.

“We literally didn’t finish until the night before,” Conlan said. “There were some kinks, but we kept overcoming them.”

“People were showing up with huge air-compression machines that were the size of trucks,” Lanberton added. “There were plenty of veterans to the competition there.”

The three students’ longest shot of just under 50 feet hardly kept pace with the eventual champion’s 700-foot toss, but Yorktown physics teacher Dan Carroll, who introduced the students to the idea, said he was as proud of them as if they had won.

“I’ve been going to Punkin Chunkin for four years, and I always wanted to see some students get involved,” Carroll said. “Every year I see more and more kids show up.”

“It’s an opportunity to apply the concepts of physics, in a hands-on way,” Carroll added. “The students did it all independently, outside of school. My involvement was very limited.”

Students with Pumpkin

Washington-Lee Teacher Finds Creative Way to Get to Work by Ryan Self:

Avondet, an automotive technology and International Baccalaureate technology teacher at Washington-Lee High School, has attached a large gas-powered motor to his 12-speed bicycle, giving him the option to fire up his bike when weary legs fail him.

“There have been some kinks, but nothing too major,” he said. “The engine won’t work as well in the rain, and I’ve got the front light hooked up to the generator, which keeps burning out bulbs when I go too fast.”

Avondet’s students say that while the bike is one of a kind, they aren’t too surprised to see their teacher riding it.

In just two years at Washington-Lee, Avondet has already had one student build a similar model as a class project.

Boosting Engineering, Science and Technology

photo of Boosting Engineering, Science and Technology competition

Photo of the South’s Boosting Engineering, Science and Technology (BEST) Middle and High School Regional Robotics Championship. The event was hosted by the Ginn College of Engineering at Auburn University.

Teams of middle and high school students from across the eastern U.S. headed to Auburn University this month to showcase their prize winning robots and engage in spirited head-to-head competition centered on the theme “Mission to Hubble.” They also had a chance to visit with NASA astronaut Story Musgrave

The competition began in September when sponsor-provided kits of standardized parts were distributed, the game challenge was revealed and teams began to design and build their remote-controlled robots. A portion of these teams also chose to compete for the BEST award, which challenges students to market and display their creations.

In October the teams competed at 26 BEST hub sites in 10 states. One month later, the winners of these hub competitions packed up their robots, displays, pep bands, cheerleaders and mascots and headed to Auburn.

We posted a few days ago about less than exciting outreach efforts. This seems like a much more captivating idea to interest students in engineering.

This year’s BEST award went to Wheeler High School, in Marietta, Georgia. Davison High School from Davison, Michigan placed first in the robotics competition.

Two more regional events are scheduled in the next few weeks. Learn more including how your school can participate next year see.

BEST is a non-profit, volunteer-based organization whose mission is to inspire students to pursue careers in engineering, science, and technology through participation in a sports-like, science and engineering-based robotics competition.

Nanotechnology Education

photo of quantum dots
Bin Yang grows quantum dots (the arrows point to them) as part of his nanotechnology research.

Exploring the Nanoworld from the University of Wisconsin – Madison.

The web site aims to “brings the “wow” and potential of nanotechnology and advanced materials to the public.” I think they still have quite a bit of work to do to reach that goal. It is good to see some effort made to do this but I hope we can do much better.

And this is the best sites I looked at today. All the sites were funded by the NSF as education and outreach efforts. They really need to do a much better job with this outreach. I believe we need to spend money to improve education and outreach but we need to do so in a way that is much more engaging.

We need material teachers can use to engage students.

Video podcast on UW Engineering nanotechnology lab

About Our Science and Engineering Blog

The title of the blog gives you an idea of the topics we explore. Here we will provide some additional insight into what we aim to do:

  • Primary education (k-12) in science, math and engineering – we will post about the state of such education (research etc.), news and items of interest to teachers and students. We aim to be a resource that helps teachers and students learn about science and engineering. The K-12 category will be targeted at teachers and students. We are also trying a students category for items we think might be of particular interest to students (and we believe teachers might find useful as items to interest students in science and engineering).
  • Higher education (college, university, graduate school and other sources of advanced learning) – we will post about news about science and engineering higher education and items of interest to professor, students and those interested in higher education. The higher education category will be targeted at professors, students and those interested in higher education.
  • Economic impact of science and engineering – we will post about the macro economic and societal impacts of science and engineering: higher education, research funding, investments and political decisions and discussions. We believe science, engineering and technology can serve to improve living conditions around the world. We believe investments in science and engineering, research and higher education, will impact the economic success of countries and the world overall. The economics category contains posts on developments in this are and our thoughts on this topic.
  • Highlight interesting science and engineering information – we will post about interesting science and engineering news and blog posts as we see it