Wouldn’t it be great if your kid’s school was something like a shape-shifting creature that evolves and adapts to the changing situation to deliver the best for your child?
For too long, primary education has been criticised for being stagnant and lacking relevance, a far cry from the skills the 21st century demands. But you would be happy to hear that, of late, schools have woken up to the importance of STEM education, robotics for kids, and coding for kids.
STEM is fast becoming a crucial component of elementary education in the modern world. STEM-related activities and lesson plans in the school curriculum offer a host of benefits to students with varying degrees of knowledge that lead to the creation of opportunities for learning which are truly broad and efficient.
If you wish your kid learns while having fun simultaneously, then there wouldn’t be anything better than having robotics taught in schools.
Robotics does it by making learning experiential, where kids learn by doing. It takes a dry theory-based learning environment hands-on and turns kids into tinkerers and innovators who engage in problem-solving and critical thinking.
Introducing robotics classes for kids prepares them for the future so that learning feels more like work of creativity and less like homework. It makes robotics the next step in teaching evolution, raising the bar for educational technology.
Robots need to be programmed to carry out the desired tasks. So, when your kids learn about robotics, they also learn about programming, which is another in-demand futuristic skill required for an automated world.
However, one thing you should be focusing on is the way your child learns about robotics. It is just as important as whether they are learning about robotics. That’s because concepts in science, technology, engineering and mathematics that are the foundation of robotics and programming can be very abstract and ambiguous.
The traditional method of studying technology or robotics may be to read about it in a book. Still, building or operating a robot through a hands-on approach is more desirable and effective. It ensures learning sticks in the future. Creating robotics projects is also often the result of teamwork rather than individual effort. A peer learning approach to learning robotics makes it all the more fun.
How Educational Robotics Improves Learning?
Educational robotics is a branch of robotics used in education to help kids learn about interactive programming and robotics, with levels of complexity catered to different student age groups.
Exposing your kid to educational robotics from a young age will have several advantages for them in academic learning and their social, psychological, and emotional development.
Robotics is included in school curricula to help kids prepare for life after school and the competitive future job market in today’s rapidly evolving and ever-expanding world of technology.
1. Learn Programming
By building, designing, assembling, and operating robots, educational robotics helps students enhance their programming skills and knowledge. When your kid is comfortable interacting directly with electrical and mechanical processes and procedures, they find it amusing and exciting too.
Learning programming via the “conventional” abstract method may be tedious and difficult. Instead, by having to operate a real robot and observing what goes wrong, kids gain immediate knowledge of what robots can and cannot do.
2. Assistive technology to attend school
For kids unable to attend school, educational robotics offers a beneficial answer. The educational sector will continue to gain from the opportunities presented by the technology world’s breakthroughs, tools, and discoveries as it develops daily.
Robots can be employed to bring learning home for students who would otherwise be unable to do so due to their unique physical circumstances.
Consider your kid is healing at home from surgery or kids who have severe allergies. A kid can experience “actual school” thanks to their robot, which goes to class and brings the student along via a unique internal video interaction system.
3. Helping students with special needs
Robotics in the classroom enables kids with special needs to create their own unique learning experiences by accessing information and educational materials via a path that is specifically designed for them.
Robots can be programmed to meet your kid’s specific needs. Robots, for instance, can assist children with autism in gaining social and communication skills by interacting with specialised devices that alter their answers and responses to the student’s reactions.
Students who struggle with attention problems and developmental concerns can benefit from having a consistent companion who can help them learn how to focus. There are countless options.
4. Developing skills for the future
Robotics helps kids become competitive workers of the future. When your kid engages in programming robots, they can determine if their interests and aptitudes match those that will define the future employment market, such as programming, science, technology, or engineering.
By integrating and applying their knowledge, students are encouraged to develop their engineering intuition while working on a robot, emphasising the need for meaningful problem-based learning. The skills produced by educational robots, which will be essential in many different professional fields, include computational thinking, higher-order thinking, logical and analytical reasoning, and strategic problem-solving.
Robotics has gradually changed several industries, including science, engineering, and industry, and is currently impacting education. When educational robotics is taught, kids can actively participate in their learning.
At first, teaching kids about robotics and programming had several positive effects, including increasing accessibility to and interest in STEM fields, enhancing problem-solving abilities, and preparing students for the future.
However, with many robotics kits available on the market, robotics learning has increased. The development of robotics tools for various age groups led to the availability of a wide range of these resources for students in kindergarten through grade 12, where they can learn by tinkering and experimenting and create their robotics projects while having fun.