Engagement, Creativity and Inspiration Found in New Afterschool STEM Programs.
Team Cupcake, Team Imaginators, Team Spaced Out, and Thinkers of Tomorrow. These are some of the hard-working student teams that can say that they have tackled challenges similar to those faced by National Aeronautics and Space Administration (NASA) scientists and engineers.
This week, the President recognized some of the best and brightest science and engineering students from across the country during the 2015 White House Science Fair. At the Department of Education (the Department), we share the President’s commitment to supporting science education that is student-centered and grounded in real-world settings. We have made great strides in improving and broadening science, technology, engineering, and math (STEM) education for all students by including STEM priorities in dozens of competitive grant programs in recent years. Most recently, the Department announced that the 2015 Ready-to-Learn Television grant competition will, for the first time, include a priority to support the development of television and digital media focused on science.
At Jones Elementary School in Springdale, Ark., the number of students reading on grade level has almost tripled — from 26 to 73 percent — in eight years. “Our students succeed because we have teachers who expect them to succeed,” explains Principal Melissa Fink about this and other achievements of the schools’ nearly 600 students, 99 percent of whom live in poverty. In addition to believing in each student’s potential, she and the Jones Elementary faculty work to strategically remove obstacles to learning, make teacher teamwork a top priority, and effectively use data to improve teaching and learning.
Every organization can benefit from an internal group that focuses on promoting and creating game-changing innovations.1 To avoid falling behind, organizations must look to the future while also improving performance and practices in the present. Here at the U.S. Department of Education (ED), we’re working hard to build the foundation for an advanced research infrastructure that can uncover breakthrough innovations so that our schools, educators, and students once again lead the world.
Before joining the team at ED, I spent 22 years in different Department of Defense (DoD) research settings, working closely with a variety of civilian research agencies. What I learned leading projects at the Defense Advanced Research Projects Agency (DARPA) and the Office of Naval Research (ONR) is that most research (both public and private) is stove-piped into two categories: basic and applied. Basic research seeks new knowledge and understanding, while applied research — as the name suggests — takes existing knowledge (i.e., the results of basic research) and creates new applications for it. Applied research can improve performance incrementally by leveraging the results of already-established basic research. This is an important and essential function. But by definition, the impact of applied research is limited by the horizon of current knowledge, which means it is not well-suited to producing dramatic breakthroughs.
The entrance halls and ground floor public spaces of the U.S. Department of Education are filled year-round with color, creativity, and powerful ideas, thanks to the talents of young artists from the United States and around the world. In November, ED conducted a host of special activities celebrating the 15th anniversary of International Education Week, including an opening reception and ribbon cutting for the 2014 VSA international children’s art exhibit Yo soy…Je Suis…I am…My Neighborhood, presented by the Office of Very Special Arts (VSA) & Accessibility and the Department’s Student Art Exhibit Program. Each year VSA, a Jean Kennedy Smith Arts and Disability Program of the John F. Kennedy Center for the Performing Arts, receives over 700 international and national entries from students with disabilities, ages 3–22, and competition winners display their artwork at ED.
As parents and educators seek to develop the next generation of mathematicians, scientists, and engineers, one question remains constant: How do we make learning math and science accessible and fun for students? On Nov. 26th, PBS stations will premier ODD SQUAD, the network’s latest contribution to informal math education. A live-action television series, the show is designed to build curiosity and interest in math among early elementary school viewers.
Middle school students work at their own pace in iPrep Math classrooms in Miami-Dade County. (Photo courtesy of the Miami-Dade County Public Schools)
More than 100 exemplary school superintendents will convene at the White House today, November 19th, for the ConnectED to the Future Summit. As part of the President’s ConnectED Initiative, these leaders have committed to advancing technology-enabled instruction in their districts. The Office of Innovation and Improvement (OII) supports several of these districts’ efforts to use technology to personalize and enhance student learning. OII is pleased to release a report that highlights some of these districts’ initial experiences, which is intended to serve as a resource for school leaders pursuing a path to personalizing student learning.
Personalized Learning in Progress: Case Studies of Four Race to the Top-District Grantees’ Early Implementationshares the experiences of four diverse school districts as they adopt personalized learning approaches that will prepare their students to succeed in the 21st century global economy. The four districts — Iredell-Statesville Schools (N.C.), Miami-Dade County Public Schools (Fla.), New Haven Unified School District (Calif.), and Metropolitan School District of Warren Township (Ind.) — are highlighted in part because of their diversity, including the range in geographies, size of student populations, differing academic content areas, and their varied approaches to personalized learning.
Students at Heidelberg Elementary School in Clarksdale, Miss., work on iPads in the classroom. (Photo courtesy of Clarksdale Municipal School District)
What’s the first thing you think about when you hear about magnet schools?
If you had asked me before this summer, I probably wouldn’t have been able to answer the question. I knew a lot of people who attended magnet schools as kids, but that was about it.
After this summer, however, I know a great deal more about magnet schools and the role they play in American education. As an intern for the Magnet Schools Assistance Program (MSAP), I spent my summer researching Office of Innovation and Improvement funding to magnet schools and the impact of that money in 12 states nationwide. Magnet schools are free public schools that offer a specialized curriculum — like performing arts, International Baccalaureate (IB), or science — to students interested in a particular theme or focus.
The MSAP provides federal grants to local education agencies (LEAs) or consortia of LEAs to implement magnet school programs to achieve the primary purposes of promoting racial/ethnic diversity in schools and improving academic achievement.
(Sept. 25, 2014) U.S. Secretary of Education Arne Duncan today announced the award of $35 million for 24 new partnerships between universities and high-need school districts that will recruit, train and support more than 11,000 teachers over the next five years—primarily in science, technology, engineering and math (STEM) fields—to improve student achievement. These awards are the culmination of this year’s Teacher Quality Partnership (TQP) grant competition that President Obama announced in May at the White House Science Fair.
For the first time, this year’s TQP competition focuses on preparing STEM teachers, and increasing the participation of underrepresented groups—women, minorities and people with disabilities—in teaching STEM subjects. The 2014 TQP grantees will train teachers in a wide variety of approaches to STEM instruction, from early learning through high school levels. This advances on the goal that President Obama set in his 2011 State of the Union address to prepare 100,000 STEM teachers over the next decade with strong teaching skills and deep content knowledge. In addition, answering the President’s call to action, nearly 200 organizations have formed a coalition called 100Kin10, all committed to the goal of increasing the supply of excellent STEM teachers.
Alabama A&M University leaders (l. to r.) Provost Daniel Wims; President Andrew Hugine, Jr.; senior-year computer science student Charlevester Wims; and College of Engineering, Technology, and Physical Sciences Dean Chance Glenn join OII’s STEM executive director, Russell Shilling (second from right), following Education Secretary Arne’s Duncan’s visit to NASA’s Space and Rocket Center. (Photo courtesy of Alabama A&M University)
As Education Secretary Duncan’s bus tour departed Huntsville, Ala., on September 9th, I remained to explore the STEM and technology education programs in the area. Huntsville, home to NASA’s Space and Rocket Center, has the advantage of being a small city with huge resources to support education. I wanted to see what they were doing that might be exported to a wide range of schools across the U.S.
After Secretary Duncan’s visit to the Space and Rocket Center and its Space Camp, I was greeted by the president of Alabama A&M University (AAMU), Dr. Andrew Hugine, Jr., along with staff and students. Once on their beautiful campus, Dr. Chance Glenn, dean of the College of Engineering, Technology, and Physical Sciences, discussed the various programs AAMU has developed to help students pursue and excel in STEM fields.