STEM (Science, Technology, Engineering, Mathematics) education is a model that combines natural sciences and engineering subjects into a single system.

It is based on an integrative approach: biology, physics, chemistry, and mathematics are taught not separately, but in connection with each other to solve real technological problems. This approach teaches us to consider problems as a whole, and not in the context of one area of science or technology. Stem Camp Kitchener, NCTM, Black Girls Code are some of the prominent STEM education organizations.

The second cornerstone of STEM is the project form of student research. This format combines a graduation project with an internship at a technology company. Students gain experience that is as close as possible to their future profession. Similarly, they work on complex projects in a team which develops multiple skills for them. Organizations like Stem Camp helps prepare valuable people for full-time jobs in technology companies immediately after graduation.

STEM education is a combination of sciences aimed at developing new technologies, innovative thinking, at meeting the need for well-trained engineering personnel. It is assumed that the introduction of STEM education into the school can contribute, in the future, to the solution of the problem of training good software engineers.

Let’s take a look at the 5 key advantages of STEM education:

Learning By Topics & Not Subjects:

It is very important to teach science, technology, engineering, and mathematics in an integrated manner because these areas are closely interconnected in practice. With STEM the students are not taught according to their subjects but they are made capable of understanding things with a practical approach with their topics.

Developing Critical Thinking and Problem Solving Skills:

STEM programs develop the critical thinking and problem-solving skills necessary to overcome the difficulties children may face in life. For example, college students build models of high-speed cars and then test them. After each test in practice, they develop their skills and abilities to achieve the goal.

Application Of Scientific And Technical Knowledge In Real Life:

STEM education through practical exercises demonstrates to children the application of scientific and technical knowledge in real life. In each class, students design, build and develop modern industry models. For example, junior engineers, when drawing up a project, become familiar with such concepts as process engineering graphics, schemes, drawings, pressure, pulling force, friction force, trajectory, etc.

Increasing Self-Confidence:

Students and college students in the classroom use innovative technologies where planning and testing robots and electronic games, developing new design projects, each time they get closer and closer to the goal. They develop and test, redevelop and test again, and so they improve their product.

Active Communication And Teamwork:

STEM programs also feature active communication and teamwork. During the discussion stage, a free atmosphere is created for discussion and expression of opinions. Pupils are so free that they are not afraid to express any of their opinions, they learn to speak and present. They talk to teachers and their teammates all the time. As children are involved in the process of learning actively, they end up remembering the lesson practically.

Clare Louise