STEM

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Across
  1. 2. science -Technological progress in recent decades has increased the need for talented computer science majors. These learners may study topics like artificial intelligence, robotics, and video game programming. Core courses include computer organization and systems, principles of computer systems, and data structures and algorithms. Graduates can pursue careers as programmers, infosec professionals, and web developers.
  2. 7. engineer- It’s no surprise that the occupation of a biomedical engineer ranks high on our list of best STEM jobs, as it merges the robust STEM industries of healthcare and engineering. Applying skills from both fields, biomedical engineers are responsible for designing and developing tools (including software and computer applications) for the healthcare industry. This is a high-paying career that requires only a bachelor’s degree in engineering or bioengineering for entry. A master’s degree will make you more competitive for open positions, however, and can also prepare you for future advancement opportunities.
  3. 9. -Biology majors ask questions about how the living world works and evolves. They often study evolution, nanobiology, biophysics, and applied bioinformatics. Beyond jobs in academia and education, biologists are essential to the advancement of medical science, biotechnology, and the pharmaceuticals. Biology graduates can pursue careers as water quality specialists, geneticists, and doctors.
  4. 10. -Mathematics is a bridge between the physical world, the internal world, and the abstract spaces in between. Mathematics majors study algebra, geometry, and topology, as well as applied mathematical fields like fluid dynamics. Graduates can pursue careers in research, teaching, investment banking, and strategic consulting.
  5. 11. technology -Information technology majors study advanced math, including discrete math and calculus, along with interactive design, web application development, and organizational communication. Graduates can find work as network and database administrators, application system designers, or multimedia specialists.
  6. 12. Astronomy majors learn about the universe by studying physics and chemistry as they relate to celestial objects. Students often take courses in calculus, astrophysics, astronomical techniques, and mechanics. Some astronomy majors become college faculty members, while others work at federal laboratories. About 10% of astronomy majors work in private industry, such as in the aerospace sector.
Down
  1. 1. -Core courses in geology cover physics, chemistry, and mathematics, as well as petrology, tectonics, and stratigraphy. In advanced courses, students learn more about the planet's surface environments, physical processes like earthquakes and plate movements, and paleontology. Graduates can find work in urban planning, mining and resource extraction, and primary education.
  2. 3. - You’ll likely just need a bachelor’s degree to become a geographer—another of the best STEM jobs. Geographers research the Earth, including its features and its people. Employers will want to know that you’re up on the latest technology in the field though, including geographic information systems, or GIS. You can obtain professional certification in GIS through The GIS Certification Institute as well as The American Society for Photogrammetry and Remote Sensing.
  3. 4. engineering -Mechanical engineering students take basic science classes in chemistry and physics before launching into major courses like mechanical systems, thermal science, differential and integral calculus, and experimental physics. Mechanical engineers are interested in both functionality and aesthetics.
  4. 5. engineer-Electrical engineering students take introductory courses in mathematics, calculus, and sustainable engineering. Advanced coursework covers electromagnetic waves and materials, integrated circuit engineering, and digital signal processing. With these skills, electrical engineering majors create electrical systems and devices that improve the human experience, shaping everything from iPads and GPS navigation hardware to hydro, wind, and solar power generation systems.
  5. 6. -Physics students focus on the most basic elements of scientific inquiry, learning how to effectively solve complex problems in areas like classical mechanics, optics, electromagnetism, and quantum mechanics. Employing advanced mathematical reasoning and laboratory skills, physicists may solve problems related to issues like climate change, commercial space travel, and food safety.
  6. 8. - Chemistry students take a variety of classes in organic, inorganic, and physical chemistry. They also study physics, mathematics, and statistics. These students develop essential skills related to creative problem-solving, data analysis, and communication.