30+ STEM Labs Setup in Schools, Internet of Things, Coding, AI Labs Setup.
Stem Lab contains components for Electronics Development,
Internet of Things & Sensors, Robotics and DIY Kits.
A system of innovation, if taught from an early age, helps students become aware of the applications of what they learn at school, helps develop a problem-solving aptitude, motivates them to focus more on the theoretical aspects of STEM, and makes them capable to make better career choices. That is exactly what a STEM lab does: encouraging children to become active learners by getting their hands dirty and helping them develop skills that’ll help them become able leaders, innovators, and problem-solvers.
CORECHAMP helps you create and nurture an ecosystem of learning-by-doing with its unique Innovation Program, which involves establishing a STEM Innovation Lab and providing training over an Innovation Curriculum.
The CORECHAMP Innovation Curriculum, a carefully curated STEM lab school curriculum designed under the guidance and mentorship of experts, is divided into three stages – Curiosity, Capacity, and Creativity. Each stage of the STEM lab school curriculum has a set of courses, followed by capstone projects, assessments, competitions/ exhibitions, etc. to ensure they are grasping knowledge to the maximum possible extent.
Ideal for educators who believe that the future is now.
We understand that schools have their own limitations and though a lot of them would like to implement the innovation program at full scale, some of them may want to take baby-steps. We have designed our packages to ensure that we meet your needs and take it to forward the way it suits you the best.
This stage of the STEM lab school curriculum grabs the students' attention by kicking off with how technology can be integrated with crafts - an aesthetically pleasing introduction to raising their motivation levels for what lies ahead. It then introduces them to motions and mechanisms, and finally to the breadth of STEM.
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This stage of the STEM lab school curriculum allows children to dig deeper. It begins with a course on electronics. It then moves to a course on coding. After getting familiar with the basics of coding, students learn physical computing; this prepares them for a course on robotics. This stage of the STEM lab school curriculum ends with a course on 3D designing and printing.
This stage of the STEM lab school curriculum takes them deeper into electronics, physical computing, robotics, and 3D designing and introducing them to the more complex and in-depth concepts of each with a creative hands-on approach. The final stage of the STEM lab school curriculum finally ends with applications of advance DIY-ing in fields of agriculture, robotics, biotechnology, etc.
This stage of the STEM lab school curriculum grabs the students' attention by kicking off with how technology can be integrated with crafts - an aesthetically pleasing introduction to raising their motivation levels for what lies ahead. It then introduces them to motions and mechanisms, and finally to the breadth of STEM.
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This stage of the STEM lab school curriculum allows children to dig deeper. It begins with a course on electronics. It then moves to a course on coding. After getting familiar with the basics of coding, students learn physical computing; this prepares them for a course on robotics. This stage of the STEM lab school curriculum ends with a course on 3D designing and printing.
This stage of the STEM lab school curriculum takes them deeper into electronics, physical computing, robotics, and 3D designing and introducing them to the more complex and in-depth concepts of each with a creative hands-on approach. The final stage of the STEM lab school curriculum finally ends with applications of advance DIY-ing in fields of agriculture, robotics, biotechnology, etc.
This stage of the STEM lab school curriculum grabs the students’ attention by kicking off with how technology can be integrated with crafts – an aesthetically pleasing introduction to raising their motivation levels for what lies ahead. It then introduces them to motions and mechanisms, and finally to the breadth of STEM.
This stage of the STEM lab school curriculum allows children to dig deeper. It begins with a course on electronics. It then moves to a course on coding. After getting familiar with the basics of coding, students learn physical computing; this prepares them for a course on robotics. This stage of the STEM lab school curriculum ends with a course on 3D designing and printing.
This stage of the STEM lab school curriculum takes them deeper into electronics, physical computing, robotics, and 3D designing and printing complex parts by introducing them to the more complex and in-depth concepts of each with a creative hands-on approach. The final stage of the STEM lab school curriculum finally ends with applications of advance DIY-ing in fields of agriculture, bio-mimicking robots, biotechnology, etc.