![]() ![]() In addition, Carnegie Science Center has determined that high-quality PreK–12 STEM education consists of the following essential components: Based on its extensive experience, and supported by research on content and best practices in education – such as the National Research Council’s A Framework for K–12 Science Education: Practices, Crosscutting Concepts, and Core Ideas – Carnegie Science Center defines STEM education as:Īn integrated, interdisciplinary, student-centered approach to learning that encourages curiosity, creativity, artistic expression, collaboration, communication, problem solving, critical thinking, and design thinking. Thank you to our sponsors, who aid in making STEM accessible to all students!Īdvancing great teaching in STEM education requires a clear and comprehensive definition of STEM education, one with the flexibility to work across the STEM education spectrum. ![]() ![]() From school assemblies and field trips to career exploration programs and educator training workshops, we’re here to prepare the next generation of problem solvers, creative thinkers, and trailblazers for an ever-changing world. A 2009 study by the National Research Council confirmed that exposure to informal science education – the kind of inspirational, hands-on learning that science centers provide – enables students to grasp concepts faster and more easily.īy supporting what you’re teaching, our curriculum-aligned programming encourages students to let curiosity drive them, think critically, use teamwork, and creatively express their ideas. The role of informal science education in STEM efforts is critical. Efforts are organized through the cultivation of a highly engaged community advisory group consisting of active leaders in all the relevant sectors. The STEM Center’s Mission and Goals are built on these four pillars.Īs a proven leader in, and advocate for, informal science education, Carnegie Science Center has long demonstrated the ability to work with all of the relevant stakeholders, and to deliver high-quality, meaningful informal STEM education programming and experiences to the students of our region. In order to be educated and engaged citizens of the world in the 21st century, everyone needs to know and understand the basics of science, technology, engineering, and mathematics (STEM).įor our nation, and our region, to remain economically and environmentally strong and sustainable, we must ensure that the upcoming generation has strong STEM skills, both to fill workforce needs and to solve the complex problems of our times.Ĭarnegie Science Center launched its Center for STEM Education and Career Development to help meet these needs by fostering great teaching, inspired learners, collaboration, and a committed community. Additionally, STEM Ed Network provides exclusive resources for teachers to ensure that educators are equipped with the best material to aid students in their journey towards a STEM career.Our society is built on science and technology. The network also works to increase the enrollment, retention and graduation rates of underrepresented minority students in STEM fields and to offer them advanced research opportunities. At the high-school level, there are camp, leadership and learning experiences for students interested in coding, science, technology, engineering, mathematics and robotics. The network offers several immersive summer camp experiences for K-8 students that expose young minds to scientific theories and experimentation. STEM Ed Network initiatives also prepare high-school and college-age students for successful STEM careers. ![]() The College of Science and Technology’s STEM Ed Network brings science education to young learners, inspiring them to study science at the college level. Promoting science education in the community. ![]()
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