principle of electronics
heard of robots, drones and smart houses? All these have been made possible due of the relentless development of the electronics industry. Everyone needs to learn about the basic principles behind electronic devices, from the flow of electricity, to the transistors that turn our digital lives on and off. Our world has become increasingly populated with electronic devices, and with technology developing at an unprecedented rate, it's become possible to easily use simple electronic components and creative programming approaches to make our lives better. Now, the power of these applications and devices are at your fingertips.
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According to renowned computer scientist, Jeannette M. Wing, computational thinking skill is the most in-demand skill in the age of information. Computational thinking allows us to problem-solve and think like a computer scientist. more
Programming at Early Ages
Educators agree that the best age to learn a skill like math or language is ages 5 - 11 years old. Similarly, children need to start learning coding at an early age to build a deeper foundation for their future. more
MIT App Inventor
MIT professor Hal Abelson took the initiative to build a platform to to make app development easy and accessible for people who were non-programmers, even kids. more
Python is one of the most popular programming language in the world right now which has helped create platforms like Facebook and Youtube! And surprisingly it is so simple that kids aged 5 years old can understand it. more
Learn Math with Coding (IGCSE & Python)Join our Camps
the topics in electronics, cover a wide array of things involving circuit behavior, atomic structure, energy, power, device structure, failure analysis and much more. But the process of learning about electronics is far from being completely theoretical. Electronics doesn't typically involve studying about theorems and mathematical calculations, and instead, takes learners on a journey of exploration, creativity and development with hands-on projects. It's a critical area of study that has enabled many people bring their imaginations and ideas to life. With the required knowledge, practical application and creative framework, the future of electronic innovation is looking brighter than ever.