Information on Science, Technology, Engineering, and Math Courses

STEM Resources

STEM is a current buzzword, standing for science, technology, engineering, and mathematics. The STEM approach to education involves fostering curiosity, teaching reasoning, and encouraging experimentation and collaboration to reach conclusions. STEM education involves the integration of these four disciplines to enable students to learn in real-world, hands-on fashion.

  • Guide to K-12 STEM Resources for Teachers: STEM includes the subjects of science, technology, engineering, and mathematics, using teaching strategies that combine these disciplines for real-world applications.
  • Science and Engineering Practices in the NGSS (PDF): STEM enables educators to help prepare students to succeed in an ever-expanding world in which the STEM disciplines mesh and overlap.
  • Seven Things to Know if You’re Thinking About a STEM Career: Of the STEM occupations, 70 percent are related to computers, and STEM career salaries are almost twice the average salary for all types of occupations.
  • What Is STEM? One of the main features of a STEM education is teaching students how to reason, analyze, and solve real-world problems using science, math, and technology knowledge.
  • STEM: Science, Technology, Engineering, and Mathematics: With a focus on science and technology, STEM educates and trains students to solve problems using a foundation of math and scientific principles.
  • Overview of STEM: With the prevalence of science and technology in the world, a strong foundation of science, engineering, math, and technology positions students to navigate and expand the modern world.
  • Understanding Science, Technology, Engineering, and Math (STEM) Skills: Today’s employers demand workers who can analyze and solve problems with a strong science, technology, engineering, and math background. A STEM education teaches students how to research, calculate, analyze, record data, troubleshoot problems, and arrive at conclusions.
  • Guidebook for Studying and Learning in STEM (PDF): Studying STEM subjects demands concentration and diligence, especially when concepts are complicated and challenging. Students will have more success with a focused effort on reading, note-taking, and participation in discussions and activities.
  • Where and How Young People Learn STEM: Children can learn STEM subjects in traditional classrooms and organized youth programs. STEM is also readily learned in natural settings such as parks and forests; by practicing hobbies; and in everyday encounters such as watching television, playing on the playground, and conversing with other people.
  • How to Learn STEM: One of the keys of an effective STEM program is keeping students engaged with the learning process with hands-on activities designed to encourage exploration and excitement.
  • How STEM Education Improves Student Learning: The STEM approach to teaching incorporates all of the subjects, even social studies, reading, and writing, to enable students to use a wide array of skills to solve problems.
  • Five Reasons to Consider Pursuing a STEM Major: Pursuing a STEM major in college gives a student flexible career paths with greater opportunities that expand out from traditional specializations.
  • STEM to STEAM: Moving from STEM to STEAM incorporates the arts into the other disciplines, allowing for greater innovation and creativity. Studying the arts has been shown to enhance academic achievement and improve school attendance.
  • Where the STEM Jobs Are (and Where They Aren’t): Examples of high-paying STEM jobs include computer scientists and electrical engineers. Researchers predict that the careers with the highest job growth over the next decade will be computer occupations.
  • Boosting Science With Diversity: Graduation rates are lower than average in STEM programs, but students of color studying in STEM fields may face additional challenges, due in part to course difficulty, lack of mentoring, and inadequate preparedness.
  • Importance of STEM Education in Elementary School: Project-based learning, inherent in STEM education, helps promote creative and innovative thinking, which helps students develop deeper knowledge and enhanced skills.
  • STEM Degrees Are Good for Careers, But Do They Lead to More Innovation? A STEM-based scientific education positions people to apply knowledge to innovation, inventing new solutions and improving existing ones.