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.

Nearly 1 million Children Potentially Misdiagnosed with ADHD in the USA

Nearly 1 million children in the United States are potentially misdiagnosed with attention deficit hyperactivity disorder simply because they are the youngest – and most immature – in their kindergarten class, according to new research by , Todd Elder, a Michigan State University economist.

These children are significantly more likely than their older classmates to be prescribed behavior-modifying stimulants such as Ritalin, said Todd Elder, whose study will appear in a forthcoming issue of the Journal of Health Economics (closed science, unfortunately). Michigan State should stop funding closed journals with free content – other schools have decided to put science first, before supporting a few outdated business models of select journals.

Such inappropriate treatment is particularly worrisome because of the unknown impacts of long-term stimulant use on children’s health, Elder said. It also wastes an estimated $320 million-$500 million a year on unnecessary medication – some $80 million-$90 million of it paid by Medicaid, he said.

ADHD is the most commonly diagnosed behavioral disorder for kids in the United States, with at least 4.5 million diagnoses among children under age 18, according to the Centers for Disease Control and Prevention.

The youngest kindergartners were 60 percent more likely to be diagnosed with ADHD than the oldest children in the same grade. Similarly, when that group of classmates reached the fifth and eighth grades, the youngest were more than twice as likely to be prescribed stimulants.

Overall, the study found that about 20 percent – or 900,000 – of the 4.5 million children currently identified as having ADHD likely have been misdiagnosed.

Related: Lifestyle Drugs and RiskLong Term ADHD Drug Benefits QuestionedMerck and Elsevier Publish Phony Peer-Review Journal

Engineering Innovation Summer Camp

Summer engineering program fosters genuine interest for some students

Engineering Innovation, which Johns Hopkins has taken nationwide since 2006, is designed to encourage students to pursue careers in engineering and science. According to the university, 90 percent of students who participate in the summer program continue on that path.

Shiesha McNeil, 16, discovered a new potential career during the four-week course. Shiesha — whose bridge held 49 water bottles — had never worked with electric circuits before the class, and she became enthralled with the science behind electricity.

Shiesha is looking at the University of Pennsylvania and Georgetown University. She wants to be a software or computer engineer. “I’ve never worked with electricity like that before,” she said. “I got to work with circuits! I got to make a robot move!”

Related: Infinity Project: Engineering Education for Today’s ClassroomFun k-12 Science and Engineering LearningHands-on Engineering EducationLego Learning

Letting Children Learn – Hole in the Wall Computers

The hole in the wall experiments are exactly the kind of thing I love to lean about. I wrote about them in 2006, what kids can learn.

Research finding from the Hole in the Wall foundation:

Over the 4 year research phase (2000-2004), HiWEL has extensively studied the impact of Learning Stations on children. Hole-in-the-Wall Learning Stations were installed in diverse settings, the impact of interventions was monitored and data was continually gathered, analyzed and interpreted. Rigorous assessments were conducted to measure academic achievement, behaviour, personality profile, computer literacy and correlations with socio-economic indicators.

The sociometric survey found:

  • Self-organizing groups of children who organize themselves into Leaders (experts), Connectors and Novice groups.
  • Leaders and Connectors identified seem to display an ability to connect with and teach other users.
  • Key leaders on receiving targeted intervention, play a key role in bringing about a “multiplier effect in learning” within the community.
  • Often girls are seen to take on the role of Connector, who initiates younger children and siblings (usually novices with little or no exposure to computers) and connects them to the leaders in the group

I believe traditional education is helpful. I believe people are “wired” to learn. They want to learn. We need to create environments that let them learn. We need to avoid crushing the desire to learn (stop de-motivating people).

If you want to get right to talking about the hole in the wall experiments, skip to the 8 minute mark.

Related: Providing Computer to Remote Students in NepalTeaching Through TinkeringKids Need Adventurous PlayScience Toys You Can Make With Your Kids

Vaccines Can’t Provide Miraculous Results if We Don’t Take Them

Vaccine preventable diseases used to ravage our health. In the USA, we are lucky to live in a society where those before us have taken vaccines and reduced to very low levels the attack vectors for these diseases. If nearly everyone is vaccinated for polio, even if it crops up with one person, most likely it won’t spread. As more people chose to risk the health of others in the society by failing to vaccinate, an infection can spread rapidly. There are some people who can’t be vaccinated for one reason or another (normally dangerous allergies) and vaccines, while very effective are not 100% effective. So any person that fails to vaccinate their kids endangers society and those who cannot be vaccinated.

Six Top Vaccine Myths

Myth 1: It’s not necessary to vaccinate kids against diseases that have been largely eradicated in the United States.
Reality: Although some diseases like polio and diphtheria aren’t often seen in America (in large part because of the success of the vaccination efforts), they can be quite common in other parts of the world. The Centers for Disease Control and Prevention warns that travelers can unknowingly bring these diseases into the United States, and if we were not protected by vaccinations, these diseases could quickly spread throughout the population. At the same time, the relatively few cases currently in the U.S. could very quickly become tens or hundreds of thousands of cases without the protection we get from vaccines. Brown warns that these diseases haven’t disappeared, “they are merely smoldering under the surface.”

Most parents do follow government recommendations: U.S. national immunization rates are high, ranging from 85 percent to 93 percent, depending on the vaccine, according to the CDC.

See the 2010 Child & Adolescent Immunization Schedules from the CDC and protect your children and society. The suffering caused by preventable diseases like polio and small pox was huge. We should not delude ourselves into thinking that those diseases are not dangerous. They are. We have been protected by all those taking vaccines. If people in the society don’t take vaccines that increases the health risks to the society at large.

Routine smallpox vaccination among the American public stopped in 1972 after the disease was eradicated in the United States. The United States government has enough vaccine to vaccinate every person in the United States in the event of a smallpox emergency (mainly due to concerns about bio-terrorism).

U.S. Adults Dying of Preventable Diseases

Diseases easily preventable by adult vaccines kill more Americans each year than car wrecks, breast cancer, or AIDS.

“We have a chronic disease epidemic in the U.S. It is taxing our families and taxing our economy,” the CDC’s Anne Schuchat, MD, said at the news conference. “We have a need for culture change in America. We worry about things when they are really bad rather than focusing on prevention, which can keep us out of the hospital and keep our families thriving.”

In other parts of the world the danger is not from those who chose not to vaccinate their children but those who are not provided the opportunity to.

Bill Gates’ war on disease, poverty is an uphill battle
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USA Science And Engineering Kavli Video Contest

Do you think Science is cool? Do you want to share your passion for science with others? Here is your chance to inspire thousands of people to be more curious, and to care about science & engineering the way you do: create a short video that explores the question “Why is Science Cool?”

We are seeking videos that are creative, surprising, and “contagious” in terms of spreading your enthusiasm about science to others. Videos might explore a scientific concept, show us the wonders of nature, give us a glimpse into the future, show us what scientific discovery has done for us in the past or will do for us in the future, introduce us to a great scientist or engineer, tell us why you think science is so cool or simply show us why we should care about science and/or engineering.

1st prize: $1,000 (to the school or science club); plus $500 electronics gift certificate for the student (or student group); plus a travel stipend to travel to Washington DC for the Expo!

In addition, the winning videos will be screened during the USA Science & Engineering Festival Expo on the National Mall in Washington DC on October 23 and 24, 2010 and at other key Festival events.

Find out how to submit a video.

Related: Science PostercastsScience Webcasts @ SciVeeBotball 2009 FinalsEngineerGirl Essay: The Cure to Vitamin D Deficiency

Home Engineering: Bird Feeder That Automatically Takes Photos When Birds Feed

automatic photo bird feeder

During a trip to the Smithsonian last week I found this great home engineering project. Kayty Himelstein and Amy Darr were frustrated: birds came to their bird feeder while they were away at school, so the girls never got to see them. They decided to build a bird feeder that automatically takes pictures of all the birds that came to the feeder. I believe, they used Lego Mindstorms as part of building it.

Related: Lego Mindstorms Robots Solving: Sudoku and Rubik’s CubeAwesome Cat CamScience Fair Project on Bacterial Growth on Packaged Salads

Teaching Through Tinkering

I wrote about the Tinkering School, Engineering camp previously. I am a strong believer in the value of helping kids (even adult kids – the few that haven’t resigned themselves to limited capacity to wonder since they now are grown up and not suppose to waste their time dreaming) explore their ideas and assisting them in making those ideas into reality. I think this is the best way to learn, not learning to pass a test, but learning to gain knowledge and accomplish things. Here is a nice 15 minute talk by the founder of the Tinkering School, Gever Tulley: “Turning Curriculum Design On Its Head: Engage First Then Look for Learning Within”

The format of the tinkering school is week long sessions where the kids stay overnight.

Some quotes: “we would use real tools and real materials and we would build real things, not model building, [but instead] actual building.” “create a meaningful experience and learning will follow”

Gever Tulley recently published: Fifty Dangerous Things (You Should Let Your Children Do).

Related: Home Engineering: Building a HovercraftKids Need Adventurous PlayAutomatic Cat FeederScience Toys You Can Make With Your KidsWhat Kids can Learn

Poor Results on Evolution and Big Bang Questions Omitted From NSF Report

Evolution, Big Bang Polls Omitted From NSF Report by Yudhijit Bhattacharjee

The section, which was part of the unedited chapter on public attitudes toward science and technology, notes that 45% of Americans in 2008 answered true to the statement, “Human beings, as we know them today, developed from earlier species of animals.” The figure is similar to previous years and much lower than in Japan (78%), Europe (70%), China (69%), and South Korea (64%). The same gap exists for the response to a second statement, “The universe began with a big explosion,” with which only 33% of Americans agreed.

The USA continues to lag far behind the rest of the world in this basic science understanding. Similar to how we lag in other science and mathematical education. Nearly Half of Adults in the USA Don’t Know How Long it Takes the Earth to Circle the Sun.

Jon Miller, a science literacy researcher at Michigan State University in East Lansing who authored the survey 3 decades ago and conducted it for NSF until 2001. “Evolution and the big bang are not a matter of opinion. If a person says that the earth really is at the center of the universe, even if scientists think it is not, how in the world would you call that person scientifically literate? Part of being literate is to both understand and accept scientific constructs.”

I completely agree. People have the right to their opinions. But those opinions which are related to scientific knowledge (whether it is about evolution, the origin of the universe, cancer, the speed of light, polio vaccinations, multi-factorial designed experiments, magnetic fields, chemical catalysts, the effectiveness of antibiotics against viral infections, electricity, optics, bioaccumulation, etc.) are part of their scientific literacy. You can certainly believe antibiotics are affective against viral infections but that is an indication you are scientifically illiterate on that topic.

2006 NSF chapter that included the results
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Innovation, America and Engineering: NAE Grand Challenges Summit

Innovation, America and Engineering: NAE Grand Challenges Summit in Raleigh, North Carolina:

Friday morning in Raleigh, a group of engineers from industry, academia and even government met to discuss the threat of America losing its global lead in innovation. The panel discussion was part of a Summit on the National Academy of Engineering Grand Challenges

Jeff Wadsworth, CEO and president of Battelle Memorial Institute, noted that high school graduation rates have fallen from about 86 percent in the Baby Boomer generation to about 72 percent today. He compared that to a 96 percent graduation rate in Denmark, 92 percent in Japan and the fact that China graduates three engineering students for every one that we do. It’s not news that international competition is stiffening against us, but the statistics he presented about how the U.S. measures up to foreign countries in K-12 metrics was gut-wrenching.

“Our historic lead in secondary education has disappeared,” Wadsworth said. “And as a leader of a large organization, I worry about education.”

Another panelist, Senator Ted Kaufman (D-Delaware) said the country was at a critical point in history. “We are in an economic war,” he said. “The future of our country rests on our ability to use STEM to solve problems.” Kauffman is the only sitting senator in Congress to have worked in the engineering field, and he repeatedly drummed out a message that policy could drive a solution to the STEM crisis.

A third panelist – John Chambers, chairman and CEO of CISCO – said he believed changing teaching methods in K-12 settings to be more collaborative, projects-oriented and skills-mastery oriented would be a good starting point.

the deans of the engineering colleges at both Duke and NC State universities announced today a new nationwide program targeting attracting school-aged children to the STEM fields. The Grand Challenge K-12 Partners Program will lean on engineering colleges throughout the U.S. to be resource hubs for K-12 students and teachers in their region.

Three more NAE Grand Challenge Summits are scheduled to take place next month, in Phoenix, Chicago and Boston. A fourth is scheduled for Seattle in May.

The importance of innovation and engineering education to long term economic success is one thing I believe strongly in and have written about here: Engineering Economic Benefits, Techonolgy Innovation Global Economy Changing, Centers of Technical Excellence and Economic Power. And is one reason I work for the American Society of Engineering Education (this blog is my own and not associated with ASEE).

Related: USA Losing Scientists and Engineers Educated in the USAInvest in Science for a Strong Economy

Infinity Project: Engineering Education for Today’s Classroom

The Infinity Project is a national middle school, high school, and early college engineering curricula. The math and science-based engineering and technology education initiative helps educators deliver a maximum of engineering exposure with a minimum of training, expense and time. Created to help students see the real value of math and science and its varied applications to high tech engineering – The Infinity Project is working with schools all across the country to bring the best of engineering to their students.

The Infinity Project curriculum is a complete, year-long course designed to complement the existing mix of math and science classes. Experience in classrooms all across the United States shows that Infinity keeps students challenged, learning and exploring from start to finish. Using The Infinity Project curriculum in the classroom, students learn firsthand how to use math and science to create and design a wide variety of new and exciting technologies that focus on topics of interest to students – the Internet and cell phones, digital video and movie special effects, and electronic music.

Engineering Our Digital Future is designed for early college students or high school students who have completed Algebra II and at least one science course. The course focuses on the fundamentals of modern engineering and technology in the information and communications age.

Related: Hands-on Engineering EducationEducation Resources for Science and Engineeringposts on engineering educationFund Teacher’s Science Projects