Posts Tagged ‘STEM’
SIRS Issues Researcher’s new Leading Issue: Private Space Sector is out of this world!
The future of space travel is taking off with private companies. This action-packed Leading Issue will help students explore how the private sector is launching reusable rockets, hauling cargo to the International Space Station, and providing useful services to NASA. The private sector also wants to make space tourism happen by 2020.
Students don’t have to wait until college and career to gain experience with space science! Besides delving into the Private Space Sector Leading Issue, students can also learn about the space industry through hands-on experience. Explore the links below for opportunities for students to gain knowledge and experience with NASA and private sector programs.
- Aerospace Activities and Lessons from the Glenn Research Center allows students to gain experience in school with projects and activities created by educators and NASA engineers. Each activity includes resources for students and objectives for teachers.
- NASA Education’s page includes a wealth of knowledge for students and teachers through STEM education. Guidance for education includes an A-Z list of projects, design challenges, and opportunities for students to interact with NASA.
- Current Opportunities for Students is also included in the NASA Education website. This page provides webcasts, contests, and lectures. It also lists scholarship and intern possibilities.
- United Launch Alliance provides cost-effective launch services for NASA. They also provide an educational page on their website dedicated to students with rocket terminology and fun facts. Students can register to compete for a CubeSat satellite launch or look into the Intern Rocket Program.
- Student Launch is a competitive rocket launching competition designed for students to learn the importance of teamwork while building a cost-effective reusable rocket. This NASA-conducted engineering design challenge provides resources and experiences for students and teachers.
- SystemsGo is a NASA-endorsed program that helps students design rockets using STEM and teamwork. The site offers everything from educational video resources, launch events, and even how to start an aerospace program at school.
Private Sector Programs:
- SpaceX‘s FIRST program awards students with scholarships as well as a chance for 10-15 high school seniors to become interns. Other programs include building and battling robotics for older students and a LEGO robot challenge for kids ages 9-14.
- Virgin Galactic offers a Global Scholarship and Mentoring Program for students interested in STEM education.
- Blue Origin offers an Astronaut Experience. Sign up for an experience on the New Shepard space vehicle.
How are your students exploring space science? Drop us a line in the comments section below or Tweet us at #ProQuest!
Today many educators, including math teachers, who are looking for ways to engage students’ minds can sweeten the learning curve by celebrating March 14 (3.14), Pi Day. Just like pi, there are infinite possibilities in motivating students in learning this mathematical constant (as long as they get to eat the examples, of course). Making pies, cookies, cakes, and other circular foods (don’t forget about pizza!) of different sizes can all play a part in motivating students in discovering the wonders of pi.
Students can double down on the learning experience because today is also the birthday of the world’s most celebrated scientist, Albert Einstein. And you can bet that Einstein was no stranger to pi. March 14 is a wonderful opportunity to enlighten your students about the endless fascination to the mathematical constant pi (3.14), and at the same time teach them about the extraordinary life of one of our greatest scientists. Be sure to click on the pi and Albert Einstein images below to open ProQuest Research Topics to learn more on both, or search eLibrary here.
Here are some facts about both Pi and Albert Einstein:
- Pi is the ratio of the circumference of a circle to its diameter (circumference divided by diameter).
- Pi is an irrational number meaning that it cannot be written as a fraction and therefore has to be expressed as an infinite non-repeating decimal.
- The Babylonians first calculated the area of a circle around 2,000 B.C.
- Archimedes was the first to use the calculation of pi. He roughly calculated the area of a circle using the Pythagorean Theorem to find the areas of two regular polygons.
- The earliest adoption of the Greek symbol for pi (π) was by William Jones.
- The closest fraction representing pi is 22/7.
- English singer-songwriter Kate Bush has a song called “Pi” in which she sings the number’s first 100 decimal places.
- Einstein dropped out of high school and failed his first college entrance exam.
- Adolph Hitler considered Einstein enemy number one. After Hitler’s ascendancy to Chancellor of Germany, he had his house sacked while he was in California. Einstein never returned to Germany.
- Family members say Albert didn’t start to speak until the age of four.
- Einstein was a member of the NAACP. When Einstein arrived in America he was shocked by how African Americans were treated. Before he moved to America he frequently corresponded with civil rights leader and founder of the NAACP, W.E.B. Dubois.
- In less than one year in 1905, Einstein, an unknown scientist at the time, wrote and published his Annu mirabilis (The Miracle Year) papers. In these papers, he redefined the laws of physics and altered our views on space, time, mass, and energy, and laid the foundation for all modern physics we know today.
- After Einstein’s death, Princeton University pathologist Thomas Stoltz Harvey performed Einstein’s autopsy. He removed his brain for research purposes but strangely kept it at his house for over 40 years. Some time later in the 1990s, he took the brain on a strange trip across America in the trunk of a Buick Skylark.
Engineering is the science by which the properties of matter and the sources of power in nature are made useful to humans in structures, devices, machines, and products. An engineer is an individual who specializes in one of the many branches of engineering.
There has been a lot of talk about in recent years about emphasizing STEM/STEAM in schools to help the U.S. fill jobs in many technical fields. One front in this effort is National Engineers Week, which in 2017 is February 19-25. Quoting from the website of DiscoverE, the organization behind it, National Engineers Week is intended to “Celebrate how engineers make a difference in our world; Increase public dialogue about the need for engineers; Bring engineering to life for kids, educators, and parents.” The site has activities, videos and other resources to help educators expose students to engineering concepts and career paths.
Teachers, eLibrary also has you covered. Of course, students and educators can search the database for lots of interesting articles, websites, transcripts and more relating to the various branches of engineering. But we also offer lots of Research Topics on specific topics in the sciences. They can be discovered while searching (look for drop-down lists while typing in search terms–many of the items here will return a Research Topic at the top of the results) and by browsing the list of all RTs. Here is a small sampling of relevant RTs to get your students started in exploring the impact of engineers and considering educational and career paths in the sciences:
Computer Software Engineer
Golden Gate Bridge
I-35W Bridge Collapse
One World Trade Center
Three Gorges Dam
As professionals in the field of education, we all know the term STEM. This is a movement that exposes students to Science, Technology, Engineering, and Math. It promotes the teaching of these disciplines’ theories and content with a hands-on learning approach. The goal is not only to provide students with a deep, multidisciplinary understanding but to foster understanding of STEM concepts in the real world.
If a letter were added to the STEM acronym, what would the best choice be? In this video, Harvard University education professor Howard Gardner has a definitive answer: “I have no hesitation in saying we need to add the letter A….An education devoid of arts…is an empty, half-brain kind of education.”
To the point.
In that same video, Yale Child Study Center lecturer Erika Christakis isolates perhaps the core reason that adding the Arts to STEM education is so important: “The arts hav[e] something really essential to say about the human condition, just as science does.”
Let’s First Look at STEM.
We are humans living in a rapidly developing society. In no point in recorded human history has there been as many innovative technologies bringing people together. The disciplines represented in STEM—Science, Technology, Engineering, and Math—are integral to the technologies we use every day—and the tools we will use tomorrow. As stated in the State Idaho Department of Education’s What Is STEM Education?, “Math is the language; Science and Engineering are the processes for thinking; all this leads to Innovation.”
Young people—students—have known no other world. It is in all of our best interest to teach, encourage, and support them in a STEM environment.
So Why STEAM?: Arts and the Human Condition
Knowing and understanding the significance of STEM in our schools may not, at first glance, lead us to recognize the significance of adding an A to this multidisciplinary approach to education.
So we must ask: Exactly what do the arts add to our lives?
Consider what the arts encompass. Music, painting, sculpting, theater, literature, architecture, fashion, and so much more. Just as new technologies bring us together and help create our shared experiences, the arts span time to connect us with each other and ourselves. Consider briefly Leonardo da Vinci’s Mona Lisa. How many people have viewed this painting across the centuries and have been moved by its beauty and brilliance? Across time and cultures, Mona Lisa created a shared, communal experience that impacted 16th-century viewers in much the same way is it does today. An encounter that becomes both a personal and shared experience.
In fact, at the foundation of all artistic endeavors are creativity, personal experience, and shared experience. It is the same with newfound technologies. Why is this important? Consider what Mae Jemison—an astronaut, doctor, art collector, and dancer—had to say on the topic in this transcript of her 2009 TED Talk on teaching arts and science:
“The difference between science and the arts is not that they are different sides of the same coin, even, or even different parts of the same continuum, but rather they’re manifestations of the same thing….The arts and sciences are avatars of human creativity. It’s our attempt as humans to build an understanding of the universe, the world around us….[S]cience provides an understanding of a universal experience, and arts provides a universal understanding of a personal experience.”
STEAM in Action
Creativity, personal experience, and shared experience are evident in stories and videos of STEAM in action. When creative writing is incorporated as the A in this Science of Superheroes Lesson, students are able to make connections between the science of flight—which was the STEM component of the lesson—and creating a superhero character and story, which was the A component of the lesson. The video highlights the many layers of involvement and collaboration STEAM can engender.
Math concepts, such as number lines, counting, and fractions, are merged seamlessly with interactive theater play in Staging STEM, a video that also conveys the joy students attain when engaging in STEAM activities. The personal and shared experiences, generated by both personal and communal creativity, become essential to and integrated with the learning experience.
Education should be exciting, engaging, uplifting, and inspiring…and it should provide an outlet for creativity and both personal and shared experiences. The multidisciplinary STEAM educational model certainly is an approach worth exploring.
Explore more about STEM and STEAM in this infographic from the University of Florida:
Find more education infographics on e-Learning Infographics
By Dawn Treude, Library Assistant, Scottsdale Public Library
This month the Scottsdale Public Library is offering our young patrons Scream STEAM, science with a Halloween twist. With activities like Frankenstein’s Hand, Balloon Banshees and Troll Boogers (don’t worry, it’s liquid glue and starch), we took a departure from typical coding or robotics programs and let simple household items shine as the stars in simple, yet satisfying activities. The results sent happy shivers down my spine.
As the demand for STEM/STEAM programs continues to grow, two responses typically come to mind—delight or fright.
Youth Librarians never tire of engaging with our young patrons, but not all of us have a background in math and science. Figuring out what to do with the kids can be tricky and time-consuming as you study and practice STEM/STEAM activities.
The turning point for me came in earlier this spring when I read an interview in YALS, the journal of the Young Adult Library Services Association, with Shannon Peterson of the Kitsap Regional Library in Washington State about its Make, Do, Share: Sustainable STEM Leadership in a Box program, which was funded through IMLS grant. The grant proposal made the point to identify “librarians as co-explorers and community builders instead of experts” when it came to STEM/STEAM participation.
As I read those words a weight lifted off my shoulders. I don’t have a strong background in math or science, but I certainly know how to explore new things.
About this time I’d been preparing for what we call Slimeology. In studying about polymers and slime making, I happened on The Book of Totally Irresponsible Science by Sean Connolly (2008, Workman Publishing). In it, Connolly uses everyday items to create catchy-sounding experiments, like Frankenstein’s Hand, which simulates a gloved hand coming to life under an acid (vinegar) and base (baking soda) mixture. This was the activity that inspired Scream STEAM.
Once I had a theme, it wasn’t too difficult to find other experiments that could be tailored for a Halloween program. I used the Balloon Banshee (a lesson about friction and sound) from Connolly’s book, re-named Slimeology to Troll Boogers and discovered a fantastic dip-your-hands-in-it blood tray that I christened Werewolf Blood from the I Can Teach My Child website. I wanted to do a candy dissolving experiment as well, but thankfully the Youth Services Coordinator and STEM/STEAM Librarian reigned me in a bit and helped me design a workable forty-five-minute program.
We started with Frankenstein’s Hand because I knew the kids would enjoy it through the entire program. I prefilled cups with the vinegar and the baking soda in the latex glove. The kids then placed the glove over the mouth of the cup, shook the fingers and waited for the hand to come alive. I used this time to talk about chemical reactions, acids, and bases and share some facts about sodium bicarbonate.
Next, we moved on to Werewolf Blood (I chose the name due to how closely related humans and werewolves are). I’d hydrated the water beads (from the floral department at Michael’s) the night before in a large plastic tray. The beads have this fantastic soft, slimy feel to them and shimmer in the right lighting. These were the red blood cells. We added white blood cells (ping pong balls) and platelets (small foam rectangles) and renamed the leftover water in the tray plasma. The kids had a blast running their hands through the mixture but I didn’t manage to convince everyone it really was Werewolf Blood.
After cleaning our hands, we moved on to ghost lore with Balloon Banshees. Most of the kids had never heard the word banshee before and were interested in this Irish lady specter, but I did modify the facts slightly and said she signaled bad news, rather than death. This experiment uses only a balloon and a small hexagon nut but does require adult-level balloon blowing skills. The nut is placed inside the balloon and it is blown up. Then you grab it from the tie end and move your hand in a circular motion and wait for the shrieking to begin. The friction as the sides of the nut move along the inside of the balloon produces an eerie sound. The rate of motion effects the sound, so the kids were able to try a variety of speeds. We had a few balloons pop and rather than cause a fright, that served to increase the excitement level.
Before we moved on to our last experiment, we checked on the hands to see if they were still alive. They were.
By far the best experiment in terms of interest and ick-factor was Troll Boogers (Slimeology in disguise). The experiment failed. I’d poured too much water in the mix, resulting in a blob of glue and starch boogers in a watery soup. This gave me a great opportunity to talk about mistakes in the lab and how important they are to learning. The kids still had a blast with their creations and delighted in picking the right color to add to the mix based on the type of troll whose boogers were in your bowl. (For example, Garden Trolls have green boogers.) The kids loved all my snot and booger facts. The most expressive looks and groans came when I held up my one-quart pitcher as a visual aide to demonstrate how much snot your body produces in a day. We talked about polymers, liquids and solids as well. Everyone’s hands were filthy with sticky goo and I don’t think I’ve seen a happier group.
My takeaway from this program is that there is definitely a place for a variety of STEM/STEAM programs in the library. Simple doesn’t necessarily mean boring, and for systems or schools without the funding for robotics materials, household science packs a big punch in terms of payoff for children to see, feel and understand. Adding a seasonal or pop culture theme can create more interest and draw bigger attendance. The response was positive enough that we’re creating another seasonal program this February, You Gotta Have Heart.
Dawn Treude is a Library Assistant in Youth Services at the Arabian branch of the Scottsdale Public Library in Scottsdale, Arizona. She enjoys creating themed programming for youth of all ages and has been known to create wizard wands and lightsabers when the need arises.
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Libraries across the country are celebrating Halloween with spooky stories, devilish decorations, and clever costumes. Some are even adding an educational twist to the festivities through the use of enriching Halloween STEAM activities.
What is STEAM?
STEAM is an acronym that stands for the integration of an A for the arts into STEM (science, technology, engineering, and math) learning. STEAM activities help equip kids with essential 21st-century skills that will help prepare them for the job market. The creative arts component — the “A” — in STEAM activities can engage students and spark interest in science and technology. STEAM is especially useful for helping students develop skills that are necessary to prepare for creative industries, including digital games, software, design, and marketing. However, research reveals the importance for all employees, not just those in creative industries, to demonstrate creativity in the workforce.
Libraries to Inspire You
Are you working on a STEAM Halloween project and need a little inspiration? The libraries below caught our attention for adding STEAM to their Halloween.
Today (October 26), middle school and high school kids will be creating 3D pumpkins from 3:00 to 5:00 at the main library. Sarah Butt, the library associate we contacted at the Champaign Public Library in Champaign, Illinois, explained that she created a pumpkin template in a program called Sculptris. The kids are then able to use the tools and create faces for their pumpkins. Once they are finished, the files can be printed on the 3D printer and ready for the kids from the middle school next door to pick up.Santa Monica Public Library (SMPL):
SMPL (Yes, the very same library we blogged about that has a summer beach library!) is also holding STEAM events at their Ocean Park and Fairview branches.
Also today, in connection with Star Wars Reads, SMPL’s Ocean Park branch is holding a Star Wars STEAM program from 3:30 to 4:30 for kids and teens. Participants are encouraged to wear costumes at the event.
Youth librarian Julia Casas, who is coordinating the event, has planned several activity stations that will give kids the chance to explore science concepts at their own pace. Among the activities are an “Ewok Launcher” (marshmallow launcher), which helps kids to learn about force, motion and gravity, and a “Rescue a Jedi from Carbonite” (lego minifigs trapped inside a baking soda mixture), which explores chemical reactions.
Children’s librarian Jennifer Boyce let us know that on October 31, from 4:00 to 5:00 p.m., the Fairview Branch will be featuring a program, “STEAM Craft: Glow-in-the-Dark Slime,” for children ages four and up. According to Ms. Boyce, the program will explore science concepts (in this case, chemistry) in a “fun, unstructured way.” Fairview’s Halloween STEAM event is part of their monthly STEAM programs, which in the past have included events such as a DIY Girls Club that focused on creative electronics and a “Build with Minecraft” program.
Children’s librarian Michelle Zimmermann of North Mankato Taylor Library in North Mankato, Minnesota, hosted a spooky science lab for their Halloween STEAM event, which was held on October 20th. The event, for ages eight to 12, was part of a monthly program, STEAM Rollers.
The mad scientists — some of whom had an evil laugh down perfectly — learned how sound is made with vibrations by making eerie sound devices with plastic cups, yarn, paper clips and water. They also made slime to learn about chemical and physical properties and examined how using different ratios changed the composition of the material they were making. The third activity involved making pumpkin lava lamps and dealt with the concepts of polar and non polar molecules. Kids also learned about how oil and water don’t mix. According to Ms. Zimmermann, the lava lamps seemed to make the biggest impression on the young scientists.
More Halloween STEAM Activities
Still looking for inspiration? Below are five spooktacular links you can use to incorporate STEAM into your Halloween event:
- Pumpkin Geoboard
- Pumpkin Optical Illusion
- Batwing Challenge
- Witch-Inspired Salt Crystal Science
- Spider Web Science
Special Guest Post
And be sure to check back tomorrow for another wicked STEAM/STEM post with featured blogger Dawn Treude. The Library Assistant in Youth Services will explore the Halloween activities at the Scottsdale Public Library. She will be discussing how to create science-based projects by using everyday items with a spooky theme.
If you’ve implemented a Halloween STEAM activity in your classroom or library, let us know what you’re doing in the comments section below or tweet us at #ProQuest.
Educational interpretations and implementations of STEM–an acronym for the disciplines of science, technology, engineering, and mathematics–are as varied as the fields of study themselves. Only one thing is clear: the general consensus of educators and educational professionals is that STEM education can provide enormous benefits for students.
How could it not? In 2009, the Program of International Student Assessment (PISA) report showed that U.S. high-school students were ranked 18th in math scores and 13th in science scores. Thirty-four nations participated, so these results were troubling. So troubling, in fact, that–in seeming response to the PISA rankings–the White House issued numerous reports on the significance of STEM education and allocated funding toward STEM initiatives and programs. In 2010, President Obama set a goal of increasing teachers’ and students’ proficiency in STEM fields of study.
So the question became…how? There are, of course, no easy answers. Possible solutions continue to be pondered, discussed, argued, and carried out in classrooms. Some things have worked, others haven’t. Thus is the evolution of education.
We at ProQuest applaud the efforts toward comprehensive STEM education and celebrate the national attention it has engendered. One goal of STEM education is to instill a sense of curiosity and exploration in students. This goal is one shared by ProQuest and its K-12 products.
Join us this summer in celebration of STEM education and its practice and growth in the United States. STEM disciplines are prominently featured on SIRS Discoverer–our product for young researchers–in its Science topic tree and in Science Fair Explorer. SIRS Issues Researcher offers a number of STEM-related topics in its Leading Issues database, such as Alternative Energy Sources, Biomedical Technology, Genetic Engineering, Nuclear Energy, Ozone Depletion, Space Exploration and Travel, and Technology. Click on any of these topics for up-to-date articles and information. And in the SIRS Discoverer Spotlight of the Month for June, Summer Science Projects, we encourage students to see the science, technology, engineering, and math that surrounds them through hands-on activities. Everyone can be a scientist! STEM is all around us…the night sky, a frog’s call, a blooming flower, a car’s engine, an Internet transmission, a deep breath…STEM at work.
If we can impress upon one student the joy of seeing science, technology, engineering, and math all around, we have done our jobs.
We all know by now that STEM (Science, Technology, Engineering, and Math) is important for students, who need to build 21st-century skills to compete in today’s workforce. But STEM feels a bit like a prescription to eat more vegetables instead of birthday cake. Yes, STEM is nutritious, but the arts and humanities are so much more alluring, succulent, and enriching. At least that’s what I thought until a group of middle and high school students—and their robots—proved me wrong.
Botfest and Botball
At the 2016 New England Botfest Exhibition and Botball Tournament at the University of Massachusetts, Lowell, students showed off their robotic creations. Lego pieces transformed into a walking pig, a butler, and a police station. LED lights adorned clothes and accessories. Several robots zoomed around to greet curious guests. And autonomous robots competed at Botball.
This annual event is the culmination of a STEM outreach partnership between the UMASS-Lowell Computer Science department and K-12 schools throughout Massachusetts and New England. According to the UMASS website, “Botball and Botfest provide fun, challenging, team-based, hands-on learning experiences for middle and high school students in computer science, robotics and technology. These efforts instill curiosity, knowledge and confidence to prepare students for college, career choices and the high tech workplace.” With the help of donations, this program provides teacher training and robotic classroom supplies.
While students explained how they built their creations (common materials: Lego pieces, motion sensors, motors, and computer software), I learned that my preconceptions about STEM were wildly inaccurate. STEM education encompasses so much more than science, technology, engineering, and math; it also includes teamwork, creativity, problem-solving, and—most shockingly—art.
Students from Brookside Elementary in Dracut, Massachusetts, worked together to design a walking pig, which they built with Lego pieces. They solved challenges such as programing their pig and using the appropriate motor to control its speed. Their labor resulted in a work of art. In fact, all of the creations I saw were indeed works of art.
STEM education, I realized, is not just about a bunch of abstract concepts. It is about creating things that have value in the real world, whether artistically, functionally, or both. Robots like NASA’s Valkyries, one of which recently arrived at UMASS-Lowell, are the future after all. Most importantly, though, when I asked the students if they had fun, each answered with an enthusiastic “yes!” So I guess STEM isn’t so bad.
How has your school integrated STEM into the curriculum?
Share your thoughts with us on Twitter @ProQuest or in the comments below.
STEAM is a movement that integrates an A for the arts into the STEM (Science, Technology, Engineering, and Math) initiative from the National Science Foundation and the U.S. Department of Education. STEAM education was created in 2006 by former teacher Georgette Yakman.
The Creative Component
Advocates of STEAM contend that there should not be a dichotomy between science and art. Instead, art should be seen as a driver of creativity that can foster innovation and spark engagement and learning in science education.
“Engineers, inventors, and designers produce drawings as part of their creative process. They draw to work out and refine concepts and details. They draw to persuade. They draw to give direction. And they draw to record their ideas and to learn from others.”–Doodles, Drafts, and Designs, Industrial Drawings from the Smithsonian
Pathway to Economic Growth
John Maeda, president of the Rhode Island School of Design in Providence, sees STEAM as a pathway to fostering U.S. economic growth. Maeda, writing in Edutopia, has said that “[d]esign creates the innovative products and solutions that will propel our economy forward, and artists ask the deep questions about humanity that reveal which way forward actually is.” He cites Apple as a well-known example of a company in which design is crucial to the success of technology.
Tried and True
The idea of integrating the arts and sciences in education is nothing new. Leonardo da Vinci, for example, was not only a famous Renaissance artist but was also a scientist, engineer, and inventor. In fact, he used his skills as an artist to draw his mechanical ideas.
“If someone had told Leonardo da Vinci, Newton, or Galileo that the study of science in the 21st century would be separated from the creativity of the arts or the social, cultural, and historical insights into human behavior offered by the humanities, they would have wondered what scientists had done to make the world disrespect them so much. It’s an odd idea to separate out different kinds of knowledge that inspire and enrich one another in the real world and the virtual too.” – Duke Professor Cathy Davidson
Future of STEAM
Mathematic and scientific knowledge fuel the mechanics of invention, but what fuels the innovative aspect, the design, and uniqueness? Imagination. And imagination comes with a love for the arts. As long as there is a need for invention and innovation, there will be a need for the arts.
A recent Washington Post article on arts inclusion in the STEM program argues this point well. Even with reports of the U.S. economy in need of more scientists and the like, it’s important to remember that the arts are a fundamental piece of what makes scientific advances as a whole.
Without the arts, the STEM program remains stagnant. Tomorrow’s innovators deserve the chance to innovate.
Links for Teachers and Librarians
Over the past several years, more and more schools have begun integrating the arts into their STEM curricula. Below are six links you can use to incorporate STEAM into your classroom or library:
- 4 TED Talks for Educators Interested in STEAM
- 7 Guidelines for Building a STEAM Program
- All Things STEAM
- Full STEAM Ahead
- Schools Shift from STEM to STEAM
- Where Science Meets Art
Websites for Students
Are your students working on a STEAM project and need a little inspiration? Below are five editorially selected websites from ProQuest’s SIRS Issues Researcher.
- Abbot Handerson Thayer – Artist who is known as “the father of camouflage.”
- Doodles, Drafts, and Designs – Industrial drawings from the Smithsonian.
- Fabian Oefner – Artist whose work bridges the fields of art and science.
- Rebecca Kamen – Artist whose work moves between art and science.
- Theo Jansen – Artist who creates lifelike kinetic sculptures that move like living creatures.
If you’ve implemented a STEAM curriculum in your classroom or library, let us know what you’re doing in the comments section below or tweet us at #ProQuest.
ProQuest eLibrary Science offers a full range of information that may be used at many different learning levels. These include access to science fair projects and experiments, interactive science websites, images, audio and video, reference books, and challenging periodical content. One place that can lead to ideas about science research and learning is found right on the front page. The right hand sidebar provides searches for information on hundreds of famous scientists with connections to articles and websites about their work. It also contains a daily XML feed of news in the world of science, which may be used to spur a person’s imagination or inspire an interest in various branches of science. The last section gives the opportunity to see how much science has contributed to our knowledge and our world today, by highlighting significant events that happened in science history and connecting people to information about those events. All of this, right on the front page. Consider the ideas that could come from it!
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