Embark on an extraordinary journey with us! Design future homes in space and bring Mars rovers to life with solar power. Explore distant galaxies through handmade telescopes and navigate lunar landscapes with advanced robotics.
Embark on an extraordinary journey with us! Design future homes in space and bring Mars rovers to life with solar power. Explore distant galaxies through handmade telescopes and navigate lunar landscapes with advanced robotics.
Activity details -
1. Telescope Making - Students build a simple refractor box telescope . They learn how magnification works, how light travels, and how telescopes are used for planetary and lunar observation.
2. VR Space Station Experience - A guided virtual reality tour of the International Space Station. Students explore different ISS modules, understand astronaut routines, and learn about microgravity, science experiments, and life in orbit.
3. Geostationary Satellite Static Model - Students assemble a working static model that demonstrates how a satellite stays in a geostationary orbit. They learn about Earth’s rotation, orbital period, satellite communication, and real-world applications.
4. 3D Designing a Space Habitat - Using 3D design tools, students create models of futuristic habitats for the Moon or Mars. They focus on structure, sustainability, life-support systems, and design thinking.
5. Solar-Powered Mars Rover Building - Students build a small rover powered by a solar panel and motor. They explore concepts like solar energy, rover mechanics, terrain navigation, and how real Mars rovers operate.
6. VinciBot Lunar Navigation Challenge - Students program VinciBot to navigate on lunar surface . They learn basic coding, path planning, robotics logic, and problem-solving inspired by real lunar exploration missions.
Activity details -
| 1. Telescope Making | Students build a simple refractor box telescope . They learn how magnification works, how light travels, and how telescopes are used for planetary and lunar observation. |
| 2. VR Space Station Experience | A guided virtual reality tour of the International Space Station. Students explore different ISS modules, understand astronaut routines, and learn about microgravity, science experiments, and life in orbit. |
| 3. Geostationary Satellite Static Model | Students assemble a working static model that demonstrates how a satellite stays in a geostationary orbit. They learn about Earth’s rotation, orbital period, satellite communication, and real-world applications. |
| 4. 3D Designing a Space Habitat | Using 3D design tools, students create models of futuristic habitats for the Moon or Mars. They focus on structure, sustainability, life-support systems, and design thinking. |
| 5. Solar-Powered Mars Rover Building | Students build a small rover powered by a solar panel and motor. They explore concepts like solar energy, rover mechanics, terrain navigation, and how real Mars rovers operate. |
| 6. VinciBot Lunar Navigation Challenge | Students program VinciBot to navigate on lunar surface . They learn basic coding, path planning, robotics logic, and problem-solving inspired by real lunar exploration missions. |