In this video, students explore the Reflection of Light using simple experiments and models. By observing how light rays bounce off mirrors and shiny surfaces, students learn the basic laws of reflection. This activity helps them understand image formation, angles, and everyday applications like mirrors, periscopes, and reflectors. A clear and hands-on way to learn an important concept of optics!
In this video, students build a Water Booster Rocket DIY Kit and learn the basic principles of rocket science. Using water and compressed air, the rocket is launched to demonstrate action–reaction forces in a safe and exciting way. This hands-on activity helps students understand thrust, pressure, and Newton’s Third Law of Motion while having fun with real launches. A perfect introduction to rocketry and space science for young learners!
In this video, students build a Horizontal Sundial DIY model and learn how people measured time using the Sun before clocks were invented. Through this activity, students observe how the Sun’s movement creates shadows and how these shadows help tell time. This hands-on model connects astronomy, Earth’s rotation, and timekeeping in a fun and easy way. A perfect activity to understand ancient science with real-world observation!
In this video, students build a Communication Satellite DIY model and learn how satellites help us communicate across long distances. Through this hands-on activity, students understand how signals are sent from Earth, received by satellites, and transmitted back to different locations. This activity introduces real-world applications like TV broadcasts, mobile calls, GPS, and internet communication. A fun and interactive way to learn space technology and modern communication systems!
In this video, students build a Box Telescope DIY Kit and explore how telescopes help us observe distant objects in space. Using simple materials, we assemble a working telescope and understand the role of lenses, light, and alignment. This hands-on activity makes learning optics fun and interactive while introducing basic astronomical observation skills. Perfect for young learners, space clubs, and beginner astronomy enthusiasts!
In this video, we build a Pinhole Camera using simple, easily available materials. This classic DIY experiment helps you understand the basic principle of image formation, light travel, and how cameras work without using a lens!
In this video, we create a Moon Phases DIY model to understand how the phases of the Moon occur. This hands-on activity makes it easy to visualize the Moon’s movement around Earth and how sunlight creates different lunar phases.
In this video, we build a 3D Double Cone using simple, easily available materials. This hands-on DIY activity helps you understand composite 3D shapes, symmetry, and how two cones combine to form a double cone.
In this video, we create a 3D Hexagonal Prism using simple, easily available materials. This DIY activity helps students clearly understand 3D geometry, prisms, and how polygonal bases form solid shapes.
In this video, we build 3D Cone and Cylinder models using simple, easily available materials. This hands-on DIY activity makes it easier to understand 3D shapes, their parts, and real-life applications through practical learning.
In this video, we create a 3D Cone using simple, easily available materials. This fun DIY activity helps you understand 3D shapes, curved surfaces, and key concepts of geometry in a hands-on way.
In this video, we build a 3D Oblique Pyramid using simple, easily available materials. This DIY activity helps you clearly understand 3D geometry, faces, edges, vertices, and how oblique shapes differ from regular pyramids.
The Air-Powered Paper Model Rocket DIY Kit allows students to safely explore the fundamentals of rocketry using compressed air as the propulsion source. By launching a lightweight paper rocket, students observe how air pressure and design affect motion, introducing core aerospace and physics concepts in an engaging, hands-on way.
The Periscope DIY Kit introduces students to the concept of reflection of light using a simple optical device. By building and using a periscope, students learn how mirrors can change the direction of light, allowing objects to be seen from positions that are not directly visible.
The Circumpolar Constellations DIY Kit helps students understand why certain constellations are visible throughout the year. By assembling and rotating the model, students can visualize Earth’s rotation and identify star patterns that never set below the horizon, building a strong foundation in observational astronomy.