Education Fun is a Learning Project for Young Students from 5-16 ages, #adults 16-24, and seniors who are ambitious to develop. Friday & Saturday SCHOOL for Fun Education for all minds to grow to fit for the future world. SUBMIT the Form to confirm your seat: . Departments are Coding Fun, English Fun, Origami Fun, Bengali Fun, Handwriting Fun, Physics Fun, Chemistry Fun, Nanotechnology Fun, Biotech Fun, Aerotech Fun (Aeronautics), Space Fun, Ocean Fun, Quantum Fun, Swimming Fun, Math Fun, Graphics Fun (AI and InDesign), Video Editing and Filming Fun, and AI Fun. Please get in touch with us to get more information> More about EDUCATION FUN Both online and offline teaching for the whole world.
We have also developed courses for seniors.
WHY AEROSPACE FOR KIDS
Admin . Sept 19 . 1 min read
At EDUCATION FUN we have developed a course for young minds to know more about it. We also develop them for many kinds of Olympiads.
WHY AEROSPACE FOR KIDS
It is a known secret that naturally kids are born inventors. They love exploring, experimenting, and creating different things from paper plane launchers to paper rockets. Kids are good at exploring cool forces such as gravity and the whole world around them. Well personally, I think most teachers will attest to the fact that the most fun part of their lessons was during their engineering lessons with the kids. Kids have much fun when doing aerospace engineering projects in groups or as they are alone as they design and build a number of structures and projects at their own pace and in the way, they want it.
picking perfect Education
Admin . Sept 19 . 1 min read
CodeMan: Hello, my children. Today, I want to teach you about nanotechnology and semiconductors. These are very important topics for the future of technology and society. Do you know what they are?
CodeGirl: Nanotechnology is the manipulation of matter on a near-atomic scale to produce new structures, materials and devices. Semiconductors are materials that can conduct electricity, but not as well as metals, and not as poorly as insulators.
CodeBoy: Wow, that sounds cool. But what are they used for?
CodeMan: Semiconductors are widely used in electronic devices, such as transistors, diodes, and integrated circuits, because they can be manipulated to create different functions and properties. Semiconductors enable the development of advanced technologies, such as artificial intelligence, internet of things, 5G, cloud computing, autonomous vehicles, and quantum computing.
At EDUCATION FUN we have developed a course for young minds to know more about it. We also develop them for many kinds of related Olympiads like NANOTECH OLYMPIAD.
Nanotechnology . Edu Fun: TeamEF . Photography: TeamEF
Biotechnology for kids
Admin . SEPT 20 . 1 min read
Biotechnology is a rapidly evolving field that has revolutionized the way we approach medicine, food production, and environmental remediation. However, the complexity of the subject matter can make it challenging to teach young minds. Introducing biotechnology to kids requires a careful balance between simplifying concepts while maintaining their scientific accuracy.
Using Real-World Examples
Kids learn better when they can relate what they are learning to something that they already know or have experienced. For example, when teaching about genetic modification, we use examples of crops that have been genetically modified to resist pests or grow in less favorable conditions. This can help students understand the practical applications of biotechnology in agriculture and how it can be used to solve real-world problems.
When using real-world examples, it’s important to keep the language and concepts age-appropriate and ensure that the examples are easily understandable for kids. By using relevant and relatable examples, we can help students develop a deeper understanding and interest in biotechnology.
Education Fun. CodeMan: Story . Photography: TeamEF
BE READY For the day
Admin . SEPT 20 . 1 min read
Origami, the ancient art of paper folding, has applications in the modern-day classroom for teaching geometry, thinking skills, fractions, problem solving, and fun science. According to the National Center for Education Statistics in 2003, geometry was one area of weakness among American students. Origami has been found to strengthen an understanding of geometric concepts, formulas, and labels, making them come alive. By labeling an origami structure with length, width, and height, students learn key terms and ways to describe a shape. You can use origami to determine the area by applying a formula to a real-world structure.
Origami excites other modalities of learning. It has been shown to improve spatial visualization skills using hands-on learning. Such skills allow children to comprehend, characterize, and construct their own vernacular for the world around them. In your class, find origami or geometric shapes in nature and then describe them with geometric terms.
Website of the day
Nanotechnology . Styling: CodeMan . Photography: TEAMEF
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CODEMAn:CodeGIRL:CODEBOY
CodeMan: Hello, my children. Today, I want to teach you about nanotechnology and semiconductors. These are very important topics for the future of technology and society. Do you know what they are?
CodeGirl: Nanotechnology is the manipulation of matter on a near-atomic scale to produce new structures, materials and devices. Semiconductors are materials that can conduct electricity, but not as well as metals, and not as poorly as insulators.
CodeBoy: Wow, that sounds cool. But what are they used for?
CodeMan: Semiconductors are widely used in electronic devices, such as transistors, diodes, and integrated circuits, because they can be manipulated to create different functions and properties. Semiconductors enable the development of advanced technologies, such as artificial intelligence, internet of things, 5G, cloud computing, autonomous vehicles, and quantum computing.
Semiconductors are widely used in electronic devices, such as transistors, diodes, and integrated circuits, because they can be manipulated to create different functions and properties. Semiconductors enable the development of advanced technologies, such as artificial intelligence, internet of things, 5G, cloud computing, autonomous vehicles, and quantum computing.
