STEM

 

STEM stands for science, technology, engineering, and math. These four symbols represent the different areas of STEM education.

Here in STEM we are based on finding a solution to a real-world problem and tends to emphasize project-based learnings. Here in STEM you can be an architect, A doctor, an IT, a game designer, and many more even scientist. Here in STEM you can change from nothing to having almost everything. Here in STEM we will going to lift you up not down, So come to STEM Track And experience what I experienced.

Make your best choice don't waste your intelligent on nothing.

-You need to risk it to the biscuit-

Who benefits from STEM?

      STEM education helps to bridge the ethnic and gender gaps sometimes found in math and science fields. Initiatives have been established to increase the roles of women and minorities in STEM-related fields. STEM education breaks the traditional gender roles. In order to compete in a global economy, STEM education and careers must be a national priority. Each and every decision made uses an aspect of STEM to understand the implications.

        In conclusion, STEM education is critical to help the United States remain a world leader. If STEM education is not improved, the United States will continue to fall in world ranking with math and science scores and will not be able to maintain its global position. STEM education in school is important to spark an interest in pursuing a STEM career in students. However, teachers do not carry the whole burden of STEM education. Parents also must encourage their children to pursue STEM activities and increase awareness and interest at home and in extracurricular activities of the merits of STEM education.

        Programs outside of school can help children to see that STEM is more than a class to finish. Having activities that show real-life implication of STEM can pull together the ideas presented in school and help to show how they benefit our society and even our world as a whole. Children can see that what they are learning now is pertinent to their future and the future of the whole world, creating an interest often lacking when learning new concepts that do not seem to carry real-world application. Engineering For Kids, for example, offers a suite of STEM enrichment programs for children ages 4 to 14.