teacher.scholastic.com:

Welcome to the historic Mt. Everest expedition. The team is attempting to climb up the world’s tallest mountain and reach the summit — a place no human has ever been before. It has taken 16 days for Edmund Hillary, 13 other climbers, and 350 porters to reach the Tengpoche Monastery and set up a rear camp. Why are there so many people taking part in this journey? Find out by checking the interview with Whitney Stewart, our expert on Sir Edmund Hillary and his work.
In order to reach the monastery, the team has already trekked 170 miles up the hot and humid Katmandu Valley. The terrain is smooth, and everyone is in high spirits. The Sherpas, a clan of Nepalese, watch the team curiously, and join them in celebration when they reach this first stop at Tengpoche Monastery.

Network World:

The National Science Board this week said leading science and engineering indicators tell a mixed story regarding the achievement of the US in science, research and development, and math in international comparisons.
For example, US schools continue to lag behind internationally in science and math education. On the other hand, the US is the largest, single, R&D-performing nation in the world pumping some $340 billion into future-related technologies. The US also leads the world in patent development.
The board’s conclusions and Science and Engineering Indicators 2008 are contained in the group’s biennial report on the state of science and engineering research and education in the United States sent to the President and Congress this week.
While the report is massive, the board came up with 13 prime observations on the report or what it calls leading Science and Engineering Indicators 2008.

The Daily Mail:

Children are being denied the chance to take part in geography field trips because of fears over health and safety, Ofsted has warned.
Inspectors warned of signs that geography is in decline in England’s schools as growing numbers of pupils abandon a subject they find “boring and irrelevant”.
Ofsted called for a revamp of geography, with more fieldwork and lessons on climate change and fair trade. Chief inspector of education Christine Gilbert said: “Geography is at a crucial period in its development.
“More needs to be done to make the subject relevant and more engaging for pupils.”
One key way to make lessons more exciting is through field trips, Ofsted said in a new report.

WISN-TV:

Three Racine sophomore students were notified on Monday that a celestial body they discovered during a science project had been verified as an asteroid.
The students at Racine’s Prairie School will be able to name the asteroid, temporarily identified as “2008 AZ28,” in about four years, according to the Minor Planet Center in Cambridge, Mass., the international authority on known objects in the solar system.
Sophomores Connor Leipold, Tim Pastika and Kyle Simpson were able to make the discovery thanks to technology provided from Calvin College in Grand Rapids, Mich., which is also the alma mater of the science teacher, Andrew Vanden Heuvel, school spokeswoman Susan Paprcka said.

The students operated a telescope located in New Mexico remotely over the internet.

Massachusetts Institute of Technology:

We’ve selected a range of materials to help you:

• Show science demonstrations by MIT faculty in your classroom.
• Provide alternate explanations to reinforce key concepts.
• Guide students to additional homework problems and exam examples.
• Add to your knowledge.

John Flinn:

1. Are there any countries where you can you see lions and tigers and bears in the wild?
2. What is the only U.S. state to allow its residents to cast absentee ballots from outer space?
3. If you could somehow hover at a point in space just above the equator, roughly how fast would the ground below be moving relative to you?
4. It was originally named the Flavian Amphitheater, but nobody calls it that today. What is its more common name?

Joey @ UT-Austin: (video)

This has to be one of the best ACTLab class presentations I have seen in a long time. Pretty much every project hit hard. And there were many that hit well above the mark. So lets take a look at those:
Laser Harp! Yeah that is right, Derek, a student of mine, along with Drake as his programmer and Sandy as a consultant created a laser harp. While he ran into many issues, he did have a proof of concept to show off. Check it out:

Carol Fertig:

There are more and more groups of professionals who are committed to making information freely available to the public through the Internet. Many universities and scientists are willing to share their lectures and expertise. Instructional videos are available for students of all ages—elementary through graduate school.
SciVee is operated in partnership with the Public Library of Science (PLoS), the National Science Foundation (NSF) and the San Diego Supercomputer Center (SDSC). It has a relatively new Web site that contains some material for elementary students and larger quantities of material for older students through scientists. Young people who are interested in careers in science will be fascinated by the various topics being studied. Just seeing what is going on at different universities may help students focus on their future objectives.
Examples of videos available at the sight include Where Does Water Go When It Rains? Dissections, and Freezing by Boiling. There is also much information on highly sophisticated topics that will be appealing for highly able high school students.

Amy Hetzner:

Would poison alter the amount of carbon dioxide in yeast? To answer that question, high school junior Evelyn Libal developed a hypothesis, designed an experiment and studied results from scientists who had conducted such tests.
The only thing missing from the 16-year-old’s work, done for an Advanced Placement biology course offered through one of the state’s virtual schools, was actually conducting the experiment.
And that’s where the College Board, which administers the AP program, could have a problem.
Differences in the kind of lab work done by students enrolled in virtual schools vs. traditional classrooms have become an issue in an ongoing audit of AP courses.
So far, thousands of teachers worldwide have successfully completed audits of their syllabuses to ensure that they are teaching what is expected for the AP label.
But the majority of science courses offered by virtual schools with computerized simulations have been given only provisional permission to continue calling themselves AP classes as they align their lab work with AP standards over the next year.
For many, that means more hands-on experiments.

Bernadette Tansey:

When Robert Ovadia got his invitation, he couldn’t believe it.
He and four other students from his biotechnology class at Abraham Lincoln High School not only had an offer of paid summer lab jobs, they also would have a chance to square off against the world’s powerhouse science universities.
In their Sunset District classroom, biotech teacher George Cachianes told the seniors they could be part of a team that would compete at iGEM, the international Genetically Engineered Machine competition. The contest founded at the Massachusetts Institute of Technology focuses on synthetic biology, one of the most far-out of new scientific fields. It treats the building blocks of life – proteins and other molecules created by cells under instructions from DNA – as engineering parts that can be cobbled together to make anything from a new microorganism to a computer component. With luck, the Lincoln kids might help break new ground in science.
“I’m like, ‘It’s too good to be true,’ ” Ovadia remembers thinking.
The invitation came from UCSF Professor Wendell Lim, whose lab explores how cells process information and send signals. Lim knew his teenage proteges would face fierce competition from college teams at Harvard, Princeton and dozens of other elite universities around the globe.

iGEM website.

Vivek Wadhwa:

Political leaders, tech executives, and academics often claim that the U.S. is falling behind in math and science education. They cite poor test results, declining international rankings, and decreasing enrollment in the hard sciences. They urge us to improve our education system and to graduate more engineers and scientists to keep pace with countries such as India and China.
Yet a new report by the Urban Institute, a nonpartisan think tank, tells a different story. The report disproves many confident pronouncements about the alleged weaknesses and failures of the U.S. education system. This data will certainly be examined by both sides in the debate over highly skilled workers and immigration (BusinessWeek.com, 10/10/07). The argument by Microsoft (MSFT), Google (GOOG), Intel (INTC), and others is that there are not enough tech workers in the U.S.

Mike Nichols:

It’s been reported that almost 40% of Americans can’t locate Iraq – where (hint) we’ve been fighting a war for four years.
Half of Americans between 18 and 24 can’t even point out the state of New York.
The state of bewilderment? That’s easy to find.
Many of us aren’t just unable to point out other people’s hometowns. Many of us can’t name our own.
This is not sarcasm. There are 1,259 towns, 402 villages, 190 cities, 72 counties and countless unincorporated waysides (including one actually called Wayside) in Wisconsin.
We either need more maps, more Red Bull to keep everybody up during geography class or more consolidation.
Probably all of the above because, evidence increasingly shows, we Wisconsinites are even more confused about where we sit ourselves down than Sen. Larry Craig.
Earlier this month, the Northern Ozaukee School Board was all set to appoint an applicant to its Town of Saukville seat – a woman Superintendent Bill Harbron says was an “outstanding candidate.”
The only problem: A current board member had to point out that she didn’t actually live in the Town of Saukville.
Although she has a Town of Saukville mailing address, she actually lives just across the border in the Town of Fredonia.

Arizona State University:

To record their historic voyages and collect scientific observations many thousands of photographs were acquired with handheld and automated cameras during all the Apollo missions. After returning to Earth, the film was developed and stored at Johnson Space Center (JSC), where they still reside. Due to the historical significance of the original flight films, typically only duplicate (2nd or 3rd generation) film products are currently available for study and used to make prints.
To allow full access to the original flight films for both researchers and the general public, Johnson Space Center and Arizona State University’s Space Exploration Resources are scanning and creating an online digital archive of all the original Apollo flight films. Through this online interface, users may browse through the archive and download any of the images. This web site also provides a suite of resources regarding the images and the cameras that were used during the Apollo program. Finally, the scanning process is estimated to take three years with the first production scans recorded in late June 2007.

David Koeppel:

SARAH JONES’S first real sense of what it might be like to be a marine biologist came during summers at Seacamp San Diego, a camp for middle-school and high-school students. It was there that her curiosity about the field evolved into an academic and career choice.
Ms. Jones, 25, is about to begin a Ph.D. program in biological oceanography at the Florida Institute of Technology in Melbourne. She wants to become a marine biology professor and to conduct research into seahorse conservation and preservation.
The type of camp that inspired Ms. Jones as a teenager is gaining popularity, and is part of a larger trend toward environmental and science camps. About 50 camps, most of them near the ocean, now specialize in marine biology studies, according to the American Camp Association. That is an increase of about 25 percent since 1998.

Leah Nylen:

Need to know the capital of Estonia or the highest mountain in Tajikistan?
Just ask Bjorn Ager-Hart, a 14-year-old home-schooled student from Jefferson who represented Wisconsin on Tuesday at the National Geographic Bee. Sponsored by National Geographic, the bee brings together 55 middle school students from all the states and U.S. territories to compete for a $25,000 college scholarship.
For the past three years, Bjorn has spent hours — about five each week — poring over geography books to learn enough to make it to the national competition.
“I like geography,” Bjorn said. “You get to learn about a lot of different places in the world.”
He first learned of the contest in 2004. Since then, he has made the state championships every year, but only this year attained his goal to advance to the national contest. In sixth grade, Bjorn got two questions wrong and last year lost during the tie-breaker round. But on March 30 this year, he got a perfect score during the competition and won a trip to Washington for him and his family.

Steven J. Smith:

In 1948, the president of Harvard University James Conant famously called geography “not a university subject” and many colleges stopped teaching it. But Dartmouth wasn’t listening. It remains the only college in the Ivy League with a distinct geography department, says Magilligan, and majors in the subject increased from 17 last year to 34 this year. Next year, 38 are signed up.

Daniel de Vise:

Many elementary schools offer half as much science instruction as they did before the law was enacted, teachers and principals said. Science and social studies, once taught separately, share time to make room for more reading and math. Some middle schools that used to offer a full year of science and social studies give a semester of each.
But starting with the 2007-08 academic year, the law requires states to test students in science. A new exam is being field-tested in Maryland this year.
“I think the test will open up some eyes,” said Brian Freiss, a fifth-grade teacher at Highland Elementary School in Silver Spring.

Joseph Berger:

The Intel is more than a gimmicky contest that garners publicity for its chipmaker sponsor. It genuinely prompts hundreds of students to plunge into vanguard research. This year, 1,705 students from 487 schools in 44 states entered, said Katherine Silkin, the contest’s program manager. High school seniors in the United States and its territories enter the Intel, though their research often begins years earlier.
Six winners of the Westinghouse, as Intel was known until 1998, have gone on to win Nobel Prizes. Its springboard power is particularly important when Americans fret that colleges are no longer producing as many graduates willing to make the financial sacrifices of lives in science.
“Not only do we have to have equity and close the famous achievement gap,” said Leon M. Lederman, a Nobel-winning physicist who is co-chairman of the Commission on 21st Century Education in Science, Technology, Engineering and Mathematics. “We also have to have innovation if we’re going to survive, so you have to nurture the gifted kids.”

Diana Jean Schemo:

A least half of eighth graders tested in science failed to demonstrate even a basic understanding of it in 9 of 10 major cities, and fourth graders, the only other group tested, fared little better, according to results released here Wednesday.
The outcome of those tests, part of the National Assessment of Educational Progress, often called the nation’s report card, showed that student performance in urban public schools was not only poor but also far short of science scores in the nation as a whole.
Half or a little more of the eighth-grade students in Charlotte, San Diego and Boston lacked a basic grasp of science. In six of the other cities — New York, Houston, Chicago, Cleveland, Los Angeles and Atlanta — the share of eighth graders without that knowledge was even higher, ranging from about three-fifths in New York to about four-fifths in Atlanta. Only in Austin, Tex., did a majority of eighth graders — and only barely there — have a basic understanding.
By comparison, the number of eighth graders who lacked a basic grasp in the nation as a whole was 43 percent.

Susan Black:

In many classrooms, science textbooks add to children’s misconceptions.
William Beaty, an engineer who designed an electricity exhibit for the Boston Museum of Science, discovered “a morass of misconceptions, mistakes, and misinformation” in grade school science textbooks. In fact, he couldn’t find a single book that explained basic electricity correctly.
North Carolina State University physics professor John Hubisz found similar problems in a two-year study of middle-school science textbooks. All told, he compiled 500 pages of errors in 12 textbooks, including mix-ups between fission and fusion, incorrect definitions of absolute zero, and a map showing the equator running through the southern states.
Reporting on the ways science textbooks are developed and sold to schools, Forbes writer David McClintick says many companies “churn out rubbish” with countless errors. One widely adopted text, for instance, claims the earth rotates around the sun, when it actually revolves around the sun and rotates on its axis.

Elizabeth Holmes:

Richard Bender is holed up in his classroom nearly every day with 21 young assistants. They are building self-propelled vehicles and bottle rockets, and boning up on genetics and aquatic ecology. He swears outsiders to secrecy, as if this were “Cold War technology development,” he says.
He and his students are preparing — after school, at night and on weekends — for the Science Olympiad, an annual spring academic competition among 14,500 schools nationwide. Under Mr. Bender, an eighth-grade science teacher at Thomas Jefferson Middle School here, the team has won 15 state titles, seven consecutive top-four national rankings and two national titles.
The Indiana General Assembly passed a resolution praising Mr. Bender “for his dedication to increase student interest and academic achievement in science.” Some compare his winning record to that of legendary Ohio State football coach Woody Hayes. Says Gerard Putz, the Olympiad’s president and co-founder: “He’s one of those magical coaches.”
But is the magic fading? Last season, the team’s winning streak snapped when it came in 10th, and Mr. Bender’s kids are feeling the heat. Says 13-year-old Jessie Bunchek: “It just kind of blew everybody away.”

Sam Dillion:

When the Internet was just beginning to shake up American education, a chemistry professor photographed thousands of test tubes holding molecular solutions and, working with video game designers, created a simulated laboratory that allowed students to mix chemicals in virtual beakers and watch the reactions.
In the years since, that virtual chemistry laboratory — as well as other simulations allowing students to dissect virtual animals or to peer into tidal pools in search of virtual anemone — has become a widely used science teaching tool. The virtual chemistry laboratory alone has some 150,000 students seated at computer terminals around the country to try experiments that would be too costly or dangerous to do at their local high schools. “Some kids figure out how to blow things up in half an hour,” said the professor, Brian F. Woodfield of Brigham Young University.

Beth Marchant:

The Inner Life of a Cell, an eight-minute animation created in NewTek LightWave 3D and Adobe After Effects for Harvard biology students, won’t draw the kind of box office crowds that more ferocious˜and furrier˜digital creations did last Christmas. But it will share a place along side them in SIGGRAPH’s Electronic Theatre show, which will run for three days during the 33rd annual exhibition and conference in Boston next month. Created by XVIVO, a scientific animation company near Hartford, CT, the animation illustrates unseen molecular mechanisms and the ones they trigger, specifically how white blood cells sense and respond to their surroundings and external stimuli.

Via Wayne.

Ellen Williams-Masson:

The mock forensics exercise is one of many hands-on approaches that fifth-grade science teacher Anne Tredinnick uses to illustrate the scientific method and share a love of science with her pupils.
Tredinnick has been named the Middle School Teacher of the Year by the Department of Public Instruction and is under consideration to be Wisconsin’s representative in the National Teacher of the Year program.
A state selection committee picks four educators from a pool of 86 Herb Kohl Education Foundation teacher fellows for the Teacher of the Year awards, choosing representatives from elementary school, middle school, high school and special services. The other three teachers selected are Terry Kaldhusdal of Oconomowoc for the elementary level, Carl Hader of Grafton for the high school level, and Rebecca Marine of Menomonie for special services.

The National Academies:

Improving science education in kindergarten through eighth grade will require major changes in how science is taught in America’s classrooms, as well as shifts in commonly held views of what young children know and how they learn, says a new report from the National Research Council. After decades of education reform efforts that have produced only modest gains in science performance, the need for change is clear. And the issue takes on even greater significance with the looming mandate of the federal No Child Left Behind Act, which says that states must measure students’ annual progress in science beginning in 2007.
Being proficient in science means that students must both understand scientific ideas and demonstrate a firm grasp of scientific practices. The report emphasizes that doing science entails much more than reciting facts or being able to design experiments. In addition, the next generation of science standards and curricula at the national and state levels should be centered on a few core ideas and should expand on them each year, at increasing levels of complexity, across grades K-8. Today’s standards are still too broad, resulting in superficial coverage of science that fails to link concepts or develop them over successive grades, the report says. Teachers also need more opportunities to learn how to teach science as an integrated whole — and to diverse student populations.

Nature:

Weblogs written by scientists are relatively rare, but some of them are proving popular. Out of 46.7 million blogs indexed by the Technorati blog search engine, five scientists’ sites make it into the top 3,500. Declan Butler asks the winners about the reasons for their success.

50 Popular Science Blogs. Via Steve Rubel.

NY Times Editorial:

The United States could easily fall from its privileged perch in the global economy unless it does something about the horrendous state of science education at both the public school and university levels. That means finding ways to enliven a dry and dispiriting style of science instruction that leads as many as half of the country’s aspiring scientists to quit the field before they leave college.
The emerging consensus among educators is that students need early, engaging experiences in the lab — and much more mentoring than most of them receive now — to maintain their interest and inspire them to take up careers in the sciences.
Some universities have already realized the need for better ways of teaching. But this means revising an incentive system that has historically rewarded scientists for making discoveries and publishing academic papers, not for nurturing the next generation of great minds.

Sam Dillon:

The first science test administered in five years across the United States shows that achievement among high school seniors has declined across the past decade, even as scores in science rose among fourth-graders and held steady among eighth-graders, the U.S. Department of Education has reported.
The falling average science test scores among high school students, announced Wednesday, appeared certain to increase anxiety about American academic competitiveness and to add new urgency to calls from President George W. Bush, governors and philanthropists like Bill Gates for an overhaul of American high schools.
The drop in science proficiency appeared to reflect a broader trend in which some academic gains made in elementary grades and middle school have been seen to fade during the high school years. The science results come from the National Assessment of Educational Progress, a comprehensive examination administered in early 2005 by the Department of Education to more than 300,000 students in all 50 states, the District of Columbia, and on U.S. military bases around the world.

Amanda Becker:

For the fourth straight year, a team of Stoughton middle schoolers will compete this month in the finals of a national science and technology contest, cementing the district’s reputation as a hotbed for young inventors.
The honor extends the dynasty developing at River Bluff Middle School, where students won a gold medal at the national competition last year for inventing a fire alarm to wake children that combined water jets and a voice alarm inside a stuffed animal.

Christopher Columbus Award website.

Brett:

Many experts outside of Harvard advocate teaching the practical side of science to nonscientists so that they will be able to make sense of it in their everyday lives. Yet few scientists appreciate the civic importance of making science understandable for all students, said Jon Miller, a professor of political science at Northwestern University.
“General education courses need to be, for scientists, your last chance to speak to someone before they are elected senator,” he said.

Sandy Cullen:

Some fourth-graders at Madison’s Marquette Elementary School got to see something Wednesday they likely never will again — Principal Joy Larson wearing a boa.
Not the fluffy, feathery kind, mind you.
The 45-pound, 8 1/2-foot boa draped around Larson’s neck and shoulders was scaly and very much alive.
The red-tailed boa constrictor was one of three reptiles who took a field trip from their home at Chicago’s Shedd Aquarium to promote its new exhibit “Lizard and the Komodo King,” which is on view through February.

UW Geologist Louis J. Maher, Jr:

Light plane photography of many United States locations, including a number in Wisconsin.

Fabulous, via Doc Searls.

Robert Tomsho:

When San Diego’s school district began overhauling its science-education curriculum five years ago, it wanted to raise the performance of minority, low-income and immigrant students.
But parents in middle- and upper-income areas, where many students were already doing well, rebelled against the new curriculum, and a course called Active Physics in particular. They called it watered-down science, too skimpy on math.
A resistance movement took hold. Some teachers refused to use the new textbooks, which are peppered with cartoons. They gathered up phased-out texts to use on the sly. As controversy over the issue escalated, it played a part in an election in which the majority of the school board was replaced. Now, further curriculum changes are under consideration.
The skirmishes in the nation’s eighth-largest urban school district reflect a wider battle over how to make science classes accessible to a broader array of students while maintaining their rigor.
Amid mediocre U.S. scores on international science tests and predictions of future shortages of scientists and engineers, policy makers have begun requiring more science in schools. By 2011, 27 states will require high-school students to take at least three science courses to graduate. In 1992, only six had such requirements.

University of Wisconsin:

The convergence of nanoscience, biotechnology and information technology is a major frontier in research, with potential to enhance human abilities and improve the nation’s productivity and quality of life. This virtual symposium provides an opportunity for K-12 science teachers and other educators to gain an understanding of the concepts and applications involved in these disciplines to solve current and future problems and for making the United States more competitive in the world marketplace. Science teachers will learn how to use these technologies topics to demonstrate the interdependency of the sciences of biology, chemistry and physics with technology in their science classrooms.

National Institute of Aerospace:

The National Institute of Aerospace (NIA), in partnership with NASA Langley Research Center and the North Carolina and Virginia Space Grant Consortia, is pleased to announce our 4th Annual Educator Training Workshop. The workshop is an opportunity for middle and high school teachers and administrators to delve into the world of aerospace to provide exciting learning opportunities for their students. This activity will be an intense two weeks focused on current and past NASA research in science, technology, engineering and mathematics (STEM).