Code Explorers STEAM programs incorporate Stanford University Design Thinking Methodology, Constructionism Learning Theory, Computational Thinking and Criterion Reference Instruction developed by Dr. Robert Mager.
Robotics engineering deals with the study, design and manufacturing of robots. This multi-disciplinary engineering field includes electrical, mechanical, computer, manufacturing and materials.
A mobile app is a software application developed specifically for use on small, wireless computing devices, such as smartphones and tablets, rather than desktop or laptop computers. Mobile apps have a wide range of uses from games to engineering.
Code powers our
digital world. Every website, smartphone app, computer program, calculator and even
microwave relies on code in order to operate. This makes coders the architects
and builders of the digital age.
The world of digital game design for computers, smartphones, tablets and other devices is extremely versatile. Digital games are divided into graphics, programming, designing. The games are developed in 2D and 3D with major advances into virtual reality.
Web development is responsible for the behind-the-scenes code and programming of Web sites and Web-based services. Web development projects vary widely, ranging from bare-bones active Web pages to complex, multi-layered Web applications that might power an ecommerce site.
Electrical engineering is a field of engineering that generally deals with the study and application of electricity, electronics, and electro-magnetism.
The 3D printing technology made its way to the technological world in the year 1986, but not gain importance until 1990. It was not that popular outside the world of engineering, architecture and manufacturing. 3D printing is also known as desktop fabrication, it can form any material that can be obtained as a powder. In order to 3D print an object you need a digital 3D model. You can scan a set of 3D images, or draw it using computer-assisted design or CAD software.
Mechanical engineering deals with the design, construction, and use of machines.
Environmental engineering is the integration of science and engineering principles to improve the natural environment, to provide healthy water, air, and land for human habitation and for other organisms, and to clean up pollution sites.
Materials engineering creates and studies materials at an atomic level. Computer models are used to replicate the characteristics of materials and their components.
Aerospace Engineering researches, designs, develops, constructs, tests aircrafts and spacecrafts. It is divided into two major branches: aeronautical engineering (earth air space) and astronautical engineering (outer space).
Architecture is both the process and the product of planning, designing, and constructing buildings and other physical structures.
Biotechnology engineering creates biological solutions. Whether it’s medicine, agriculture, cell or seed technology, biotechnology engineering is the place where these solutions are dreamed up.
Chemical engineering is a branch of engineering that applies the natural (or experimental) sciences (e.g. chemistry and physics) and life sciences (e.g. biology, microbiology and biochemistry) together with mathematics and economics to produce, transform, transport, and properly use chemicals, materials and energy.
Civil engineering deals with the design, construction, and maintenance of the physical and naturally built environment, including works like roads, bridges, canals, dams, and buildings.