Posts Tagged ‘Science’

« Older Entries

Beyond Pink and Blue

Monday, January 9th, 2012

In “Beyond Pink and Blue” on the blog site for The Nation magazine, author Dana Goldstein writes about children and gender norms. She quoted me for a part of the article about tinkering, and how that kind of hands on learning helps students grasp scientific concepts.

Sylvia Martinez, an expert on educational technology, has written about how all children need to reinforce math and science concepts through “tinkering”—interacting with the physical world, as opposed to just learning at their classroom desks. (For example: collecting water samples to test pH levels, or reinforcing math concepts by learning basic computer coding.) It doesn’t work, Martinez says, “to explain everything to kids without them having any basis in experience. I’m trying to expand the idea of ‘tinkering.’ It’s not just going down to the basement and playing with stuff. You can play with data, ideas, equations, programming.”

Parents can foster this type of experimentation at home, but schools should also do their part. The problem is that in an age of increased focus on standardized test scores in reading and math, many schools are canceling computing and science courses or cutting down lab time.

“We’ve created math and science in school as very abstract,” Martinez says. “We’ve taken away a lot of hands-on experiences from kids in favor of testing. We’ve reduced a lot of science to vocabulary, where kids are being given vocabulary tests about the ocean instead of going to the ocean or looking through a microscope at organisms. If we taught baseball the way we taught science, kids would never play until they graduated.”

I’m really glad she got the idea in there that tinkering goes beyond “stuff” and extends into playing with concepts too. I also am glad that the conversation is about “what’s good for kids”, not just “what’s good for girls.”

I’ll be exploring that topic a bit more in the coming months, it’s been on my mind a lot lately!

Sylvia


 

Share

Tags: , , , ,
Posted in constructivism | No Comments »

Tinkering and “real work”

Wednesday, June 1st, 2011

Last week I was invited to be a panelist at the National Council of Women in IT Best Practices summit. It was a great experience and I learned a lot! My session was about getting girls interested in STEM subjects and programming through “making stuff” and tinkering.

The session was really interesting and we had some great questions about how tinkering can fit into the school day, especially with so much focus on test results and career and college readiness. It seems that to many people, tinkering conotes a messiness and unprofessionalism that doesn’t apply to “real” jobs in scientific fields.

I believe just the opposite is true – tinkering is exactly how real science is done.

I like to think I have a unique perspective on this. After graduating with an electrical engineering degree I went to work at an aerospace company and ended up on a research project to create the GPS satellite navigation system. It was fun, exciting work and we were building something that was literally theoretically impossible. The hardware was too slow, the software didn’t exist, the math was only a theory, and existing navigation systems weren’t build to handle the precision we needed. The military pilots we worked with didn’t trust it either, creating interesting team dynamics. There were many days where we just sat around and talked through the problems, went to try to them out in the lab, and watched our great ideas go up in smoke. Then we did it again.

It was the essence of tinkering. We tinkered with ideas, methods, with hardware and software, always collaborating, always trying new things. There was no “right answer”, no “scientific method”, and sometimes the answers came from the unlikeliest sources or even mistakes. There were flashes of insight, fighting and battle lines drawn, crazy midnight revelations, and occasional 6 hour lunches at the local pool hall/bar.

I’m not suggesting that any of that is a good model for K-12 STEM education – but perhaps we should avoid squeezing all serendipity out of STEM subjects in a quest to teach students about a “real world” that exists only in the feeble imaginations of textbook authors. Tinkering is the way that real science happens in all its messy glory.

Sylvia

Share

Tags: , ,
Posted in constructivism | 4 Comments »

Stand for Tomorrow – free resources for eco-awareness

Thursday, December 9th, 2010

We are partnering with a new organization called Stand for Tomorrow that combines student leadership and ec0-awareness. Please take a look, pass along, and send to colleagues and friends so they can Stand for Tomorrow, today!

Sylvia

Do you want to take your students on an adventure to save the world’s oceans that they’ll never forget? An adventure that will empower them through knowledge and activism? An adventure that doesn’t cost a penny? Well, your holiday wish has come true! Stand for Tomorrow is an organization that will provide educational multimedia content on plastic’s impact on the ocean’s that is free to students and teachers! The best part? Your students will have the opportunity to participate virtually with researchers on expeditions, explore the oceans through the eyes of expert scuba divers, and acquire knowledge and experience that they would have never been able to access before. So what are you waiting for! Sign up for our monthly newsletter where we will update you on the latest news and keep you informed of our upcoming release of free lesson plans. Follow us online: Blog, Facebook, Twitter, Linkedin, YouTube.

Stand for Tomorrow aims to create environmental stewardship through eco-awareness and education. Students are the leaders of tomorrow and Stand for Tomorrow is focusing on educational content to educate, excite, and involve students to Stand for Tomorrow that they want and deserve.

Stand for Tomorrow will create K-12 lesson plans focused on pollution and it’s impact on marine ecosystems that demonstrate the impact that pollution has on our oceans with a focus on the current failure to prevent plastic from impacting marine ecosystems. The curriculum will allow students to understand elements that contribute to this environmentally destructive issue and how they will be able to make a difference. The curriculum will incorporate critical education skills for today’s 21st century learner as well as to cover mathematics, history, geography, and science. Stand for Tomorrow will support their educational efforts with multimedia and a documentary to reach a larger audience and provide an more in depth look at the impact of plastic on marine ecosystems and subsequently it’s impact on our larger eco-system, Earth.

Share

Tags: , , , , , ,
Posted in blogs, cool links, fun/free stuff, Generation YES, student voice | Comments Off

Plan now for Intel Schools of Distinction

Tuesday, October 19th, 2010

Every year, Intel honors U.S. schools demonstrating excellence in math and science education through innovative teaching and learning environments. To be considered as an Intel School of Distinction, schools must develop an environment and curricula that meet or exceed benchmarks put forth by national mathematics and science content standards.

via Cash Grants for Science and Math Programs from Intel Corporation.

You can enter your school in this competition anytime before Feb 17, 2011 – but don’t wait until the last minute!

Sylvia

Share

Tags: , , ,
Posted in contests | Comments Off

Prairie Elementary Filmmakers Save a Regional Nature Program

Thursday, September 9th, 2010

From Gail Desler (aka Blogwalker) in a school district near Sacramento, CA.

Prairie Elementary Filmmakers Save a Regional Nature Program | BlogWalker.

“I was there – at the Sacramento Board of Directors – on Wednesday, joining other concerned educators and citizens in a last minute effort to save one of Sacramento’s primo science programs: Spash.

Thanks to Splash, thousands of elementary, middle, and high school students have explored life in Sacramento’s streams and, in the process, have come to understand why taking care of our water supply is so vital to the community. However, the Board was ready to eliminate the program as part of their latest round of budget cuts.

We had our chance to speak out, each person being allotted 3 minutes to justify continued funding for the program. With Splash director Eva Butler leading the charge, I think the 12 of us who took our turns at the podium helped provide the Board members with an understanding and appreciation that for most kids, “Splash is their first experience with relevant science and things that live beyond the pavement in Sacramento’s streams and vernal pools.”

But it was clearly a team of 5th grade filmmakers from Prairie Elementary School (Lesley McKillop’s former 4th graders) who saved the program. In less than 2 minutes, their Saving Splash video (see snippets in the above TV coverage) provided a compelling argument that led to a unanimous vote to save the program.

A huge victory for students all over the Sacramento region – and a powerful lesson to our young filmmakers on the importance of taking a stand and the power of media to sway an audience.”

If you don’t know, California schools are going through some incredibly tough fiscal times. Yes, I know that’s true all across the US, but California school’s are especially dependent on property taxes, and California real estate was subject to some of the biggest bubble bursting in the country. So the fact that these young filmakers changed a decision in these times especially affirms the power of student voice.

Here’s another reason – the subject of water and the science behind it. The city of Sacramento is at the heart of the California Central Valley Delta. This inland water system is the ecological lifeblood of the state and nourishes one the richest agricultural areas in the U.S. On less than 1 percent of the total farmland in the United States, the Central Valley produces 8 percent of the nation’s agricultural output by value, most of it fed by human engineered water systems (source). Understanding water ecology is vital to Sacramento citizens. So this testimonial about elementary school students saving a science program with their media skills is no joke. This is not just media literacy, it’s science, politics, and ecology! This is certainly the “real world” that we want students to experience.

Thanks, Gail, for sharing Prairie Elementary Filmmakers Save a Regional Nature Program

Sylvia

Share

Tags: , , ,
Posted in blogs, digital citizenship, student voice, technology literacy | 1 Comment »

This Wednesday: Science of the Winter Olympics Webinar

Monday, February 8th, 2010

logoSounds cool! From the Learning Games Network:

As part of our Learning Games webinar series, we invite you to join us this Wednesday, Feb 10, 2010 for Olympics Science: Online Resources for the Classroom from NBC Learn.

Description: On February 12th, the torch will light over Vancouver for the 2010 Winter Olympic Games. Join the Learning Games Network’s Alex Chisholm and special guest Norman Cohen, producer at NBC Learn, to bring the science of the Winter Olympics home to your classroom.

NBC Learn has collaborated with the National Science Foundation to create this series of video resources and lesson plans demonstrating the links between the laws of physics and the principles of chemistry, and downhill skiing, bobsledding, and other sports.

We hope you’ll join us this Wednesday, Feb 10, at 7:30pm EST to learn more about how NBC Learn can inspire students by approaching the science of sports from a new perspective.

Links:

NBC Learn: http://nbclearn.com/olympics

Lesson Plans: http://lessonopoly.org/svef/?q=node/9086

Share

Tags: , , , , , , , , , ,
Posted in cool links, fun/free stuff, In the news | Comments Off

Quote for the day

Monday, March 16th, 2009

“Science is built up of facts, as a house is built of stones; but an accumulation of facts is no more science than a heap of stones is a house.” – Poincaré 1905

Share

Tags: , ,
Posted in constructivism, education reform | Comments Off

The disconnect in science education

Monday, February 23rd, 2009

Every year, Project Tomorrow administers the annual SpeakUp survey of students, parents, teachers, and administrators. Every year, we hear from U.S. students that they are fascinated by technology, love learning, and want more. Results from the over 300,000 participants in the 2008 survey should be available soon.

While we wait, let’s look at some interesting data from the science questions from 2007.

In the U.S., STEM (science, technology, engineering, and math) is a hot topic these days. Pundits bemoan the lack of basic science literacy, blame American students for apathy, and predict we will be crushed by global competition. But who ever asks students what they are interested in or how best they learn?

In looking at the report, Inspiring the Next Generation of Innovators: Students, Parents and Educators Speak Up about Science Education, you immediately see the glaring inconsistencies in how students learn, what fascinates and excites them, how teachers want to teach, and what’s actually happening in classrooms. What does it mean for the future when less than 40 percent of these students see learning science as important for making informed decisions in the future? How does that square with the same students reporting that they “…are open to learning science and pursuing STEM careers—intrigued by opportunities to participate in hands-on, group-oriented, “fun” experiences, as well as by opportunities to meet with professionals and use professional-level tools.”

It’s obvious that students are experiencing a disconnect. They are interested and intrigued by science — but not in school.

  • Students report that their especially fun or interesting learning experiences using science and math have been hands-on and group-oriented.
  • Students are interested in pursuing careers in STEM fields — when they know about them.
  • When asked about the essential features of their imagined ultimate science classroom, the leading answer for students in grades K-2 and in grades 9-12 was “teachers excited about science”. Students in grades 3-5 were more interested in “fun experiments” (69 percent). Other highly essential features for students in grades 3-12 were “real tools” (standard lab and technology-based tools) and being able to do “real research,” including online research on computers.

Imagine that — students want teachers who are inspired and inspiring, who bring the classroom to life with real world tools and examples. These teachers are out there, students want and need them, but apparently are getting them too rarely.

This disconnect is reflected in the teacher responses as well.

  • Just 25% of teachers say they’re using inquiry-based methods with their students; methods that both educators and researchers argue are essential for the development of scientific literacy.
  • Only 16 percent of teachers reported they are assigning projects that help students develop problem-solving skills.
  • Teachers report that 21st century tools and projects would help — but lack the time and funding to implement them, and feel constrained by mandated curriculum.

But the biggest disconnect is that most K-12 school administrators don’t see this problem. Here’s the percentage of each category that gave a passing grade to their school for preparing students for jobs of the future.

K-12 Administrators: 57%
Teachers: 47%
Parents: 47%
Students: 23%

This perception gap is a crucial indicator that we are not only failing our students in providing the relevant, inquiry-based, hands-on science education they hunger for, but that we are fooling ourselves about it. What’s worse?

Full report (PDF)

Sylvia

Share

Tags: , , , , , , , , ,
Posted in education reform, research | 5 Comments »

Free NASA opportunity for California math/science teachers

Wednesday, January 28th, 2009

NASA Ames Education and the Lewis Center for Educational Research, is conducting a special workshop for up to 25 science and math teachers from local schools February 26 – 28, 2009 at NASA Ames Research Center, Moffett Field, CA.

This 3-day training program provides teachers with all the necessary tools to remotely access and control the Lewis Center’s, 34 meter, Goldstone Apple Valley Radio Telescope (GAVRT) from their classrooms. The GAVRT program involves American students throughout the world in real science using a hands-on, standard-based curriculum that helps middle and high
schoolers reach for the stars. Students participating in the GAVRT program will assist NASA by monitoring the progress of the LCROSS (Lunar Crater Observation and Sensing Satellite) during its mission to the moon in 2009.

The GAVRT training is normally $600 per teacher. However, due to a unique LCROSS scholarship opportunity, this workshop is currently FREE to 25 teachers! And, these 32 hours of professional development are recognized for state, district, and NCLB requirements. If you are teaching science or math in your classroom, you are qualified to apply for this unique program.

The training will include a special NASA Ames tour at that is not normally open to the public. Andrew Chakin, world-renown author of Man on the Moon – the basis of Tom Hanks’ miniseries From the Earth to the Moon will meet with the teachers to share his experience inspiring students.

For more information about the LCROSS Mission and the Lewis Center and GAVRT program visit : http://www.lewiscenter.org/gavrt and http://lcross.arc.nasa.gov/

Applications are now being accepted for this exciting program. To enroll, immediately contact: Barbara Patterson at NASA Ames Research Center: barbara.e.patterson [at] nasa.gov 650-604-0494

Share

Tags: , , , , , ,
Posted in Generation YES | Comments Off

Constructing Modern Math/Science Knowledge 2009

Monday, December 1st, 2008

Ever question why technology seems to have gone missing in so many math and science classrooms? What happened to the “compute” in computing? Wondering what STEM really looks like?

Yes, technology, math, and science can be friends!

Constructing Modern Knowledge is organizing a one-of-a-kind educational event for January 22, 2009 at Philadelphia’s Science Leadership Academy. Constructing Modern Math/Science Knowledge is a minds-on institute for K-12 teachers, administrators and technology coordinators looking for practical and inspirational ways to use computers to enhance S.T.E.M. learning. Constructing Modern Math/Science Knowledge is a pre-conference event for Educon 2.1, an innovative conference and conversation about the future of education.

The presenters represent high-tech pioneers and seasoned veterans at the forefront of innovation in math, science and computing. Read more about them here.

Come to Constructing Modern Math/Science Knowledge and stay for Educon 2.1!

  • Early-bird registration (before December 15) – $100
  • Regular registration – $130

You may register for both Constructing Modern Math/Science Knowledge and Educon 2.1 with one click.

Sylvia

Share

Tags: , , , , , , , , , , , , , , , , , , , , , , ,
Posted in conferences, constructivism, professional development | 1 Comment »

« Older Entries