STEM Strand Courses: What You Need to Know (+Tips to Choose)
College courses and even some high schools have been broadly categorized into ABM, STEM, and HUMSS strands to help students focus on their career paths early on. This guide zeroes in on the STEM strand, which stands for Science, Technology, Engineering, and Mathematics.
STEM is critical in today’s world, as these fields fuel innovation and drive economic growth. They provide solutions to numerous challenges and present opportunities for advancement and development.
Courses under the STEM strand prepare graduates for stable careers in their chosen fields. Better yet, the demand for STEM professionals is skyrocketing globally, with STEM positions growing at twice the rate of non-STEM careers. In this blog, you’ll learn about the various STEM stand courses available and get tips to help you choose the best one for your future.
List of Courses in STEM Strand
Here’s a STEM strand course list, including the most popular degrees in each discipline, along with their core subjects and career paths. Note that this list doesn’t include all courses in the STEM strand, and some colleges may have different titles that describe the same or similar courses.
Science courses
Science broadly encompasses the systematic study of the natural world, including biology, chemistry, and physics, to understand and explain phenomena. It forms the foundation for advancements in medicine, technology, and environmental conservation.
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BS Biology
Biology courses explore genetics, anatomy, and ecology to prepare students for careers in healthcare and research. Core subjects may include cell biology, anatomy, genetics, and ecology.
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BS Psychology
BS Psychology is concerned with the study of behavior and mental processes. It explores human cognitive processes and emotional functioning. Core subjects include developmental psychology and neuropsychology. Graduates can pursue careers in counseling, clinical psychology, and human resources.
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BS Chemistry
A degree in chemistry focuses on the properties, composition, and reactions of matter. Core subjects include organic, inorganic, and physical chemistry, preparing graduates for roles in pharmaceuticals, education, and industrial research.
Technology courses
Technology courses focus on the application of scientific knowledge for practical purposes, especially in industries such as computing and information systems. This discipline drives innovation in communication, automation, and data management.
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BS Computer Science
Computer science and engineering courses focus on programming, algorithms, and data structures, preparing students for careers in software development, cybersecurity, and artificial intelligence.
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BS Information Technology
BS Information Technology focuses on managing and processing the mountains of data used in technology. It can lead to job opportunities in systems administration, IT specialist consulting, and data analysis.
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BS Biomedical Informatics
This specialized course combines biology, medicine, and technology to manage and analyze biomedical data. Core subjects typically include bioinformatics, health informatics, and data analysis, leading to careers in healthcare IT, biomedical research, and public health.
Engineering courses
Engineering degree programs and careers apply mathematical and scientific principles to design, build, and maintain machines, structures, and systems. The field plays a critical role in infrastructure development, manufacturing, and technological innovation.
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BS Civil Engineering
Civil engineering courses cover structural analysis, construction materials, and project management, preparing students for careers in construction, urban planning, and infrastructure development.
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BS Mechanical Engineering
BS Mechanical Engineering covers thermodynamics, fluid mechanics, and machine design to help with its focus on machines, energy, and manufacturing. Potential career paths can lead to the automotive, aerospace, and manufacturing industries.
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BS Electrical Engineering
Courses like this deal with electrical systems and electronics via its core subjects: circuit design and power systems. Graduates can expect careers in telecommunications, renewable energy, and robotics.
Mathematics courses
Mathematics involves the abstract study of numbers, quantities, and shapes, providing essential tools for solving real-world problems. It underpins various fields, including finance, engineering, and data science.
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BS Mathematics
BS Mathematics covers fundamental and advanced mathematical theories and techniques. Core subjects include calculus, linear and abstract algebra, and real analysis. Graduates can pursue careers in academia, finance, data analysis, and software development.
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BS Applied Mathematics
BS Applied Mathematics tackles mathematical techniques to solve practical problems in various industries. Core subjects may tackle differential equations, numerical analysis, and probability and statistics. Data analysts, cryptographers, and actuaries often graduate from this course.
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BS Statistics
BS Statistics courses involve the collection, analysis, and interpretation of data, emphasizing data analysis, probability, and statistical inference. Graduates can pursue careers in market research, data science, and public health.
4 Tips for Choosing the Right STEM Course
The many courses related to the STEM strand can make your choice of degree program overwhelming. Here are four practical tips that can help with this important decision.
1. Assess interests and strengths
Reflect on subjects you enjoy and excel in. Your natural inclinations and skills can guide you toward a STEM field where you’ll thrive and stay motivated. Don’t think that you’re limited to the strand you chose in high school. Many switch strands when choosing their college degree.
2. Consider career goals
Research the career opportunities and job market for STEM disciplines you’re interested in. The information may help you choose a course that matches your long-term career aspirations and offers potential for growth and fulfillment.
3. Evaluate academic institutions
When choosing a STEM course, consider the quality and reputation of the institutions offering them. For example, Trinity University of Asia provides a robust selection of STEM programs featuring cutting-edge facilities and experienced faculty.
4. Seek real-world experience
Look for programs that offer internships, research opportunities, or industry connections. Practical experience can be invaluable in applying theoretical knowledge and enhancing your employability.
Classroom to Career with STEM
The preparations you make when choosing your STEM course can set you on the path to a successful career. Base your decision on your interests and career goals to ensure a fulfilling and productive education. The right STEM program can open doors to exciting opportunities.
Consider Trinity University of Asia’s STEM courses for a top-notch education and excellent preparation for a dazzling career in your chosen field. Contact us today for more information and to start your college journey!