STEM is a curriculum based on the idea of educating students in four specific disciplines — science, technology, engineering and mathematics — in an interdisciplinary and applied approach. Rather than teaching the four disciplines as separate and discrete subjects, STEM integrates them into a cohesive learning paradigm based on real-world applications.
Though the United States has historically been a leader in these fields, fewer students have been focusing on these topics recently. According to the U.S. Department of Education, only 16 percent of high school students are interested in a STEM career and have proven a proficiency in mathematics.
The importance of STEM education
All of this effort is to meet a need. According to a report by the International Technical Education Society, by 2018, projections estimate the need for 8.65 million workers in STEM-related jobs.

Blended learning
What separates STEM from the traditional science and math education is the blended learning environment and showing students how the scientific method can be applied to everyday life. It teaches students computational thinking and focuses on the real world applications of problem solving.
The STEM-based system is custom designed for students belonging to Elementary School, Middle School and High School, with each level having lesson plans constructed to cater to their specific needs.
While it is almost impossible to list every discipline, some common STEM areas include: aerospace engineering, astrophysics, astronomy, biochemistry, biomechanics, chemical engineering, chemistry, civil engineering, computer science, mathematical, biology, nanotechnology, neurobiology, nuclear physics, physics, and robotics.
Experience has shown that children can learn faster and retain longer the lessons they have learned through practical means rather than theoretical ones. Our focus is not just on academic excellence rather on all-round development of the student’s personality but a majority of the students who have attended our programs are doing better academically.
What separates STEM from the traditional science and math education is the blended learning environment and showing students how the scientific method can be applied to everyday life. It teaches students computational thinking and focuses on the real world applications of problem solving.
The STEM-based system is custom designed for students belonging to Elementary School, Middle School and High School, with each level having lesson plans constructed to cater to their specific needs.
While it is almost impossible to list every discipline, some common STEM areas include: aerospace engineering, astrophysics, astronomy, biochemistry, biomechanics, chemical engineering, chemistry, civil engineering, computer science, mathematical, biology, nanotechnology, neurobiology, nuclear physics, physics, and robotics.
Experience has shown that children can learn faster and retain longer the lessons they have learned through practical means rather than theoretical ones. Our focus is not just on academic excellence rather on all-round development of the student’s personality but a majority of the students who have attended our programs are doing better academically.