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• The Cosmos: From the origins of the universe to the formation of galaxies, stars, and
planetary systems.
• Our Solar System: Detailed exploration of the planets, moons, asteroids, comets, and
other celestial objects within our cosmic neighborhood.
• Space Missions: Historical and ongoing missions by space agencies and private
Thesis Report V-SPARC VIT
companies, showcasing spacecraft technology, exploration goals, and scientific
discoveries.
• Human Spaceflight: The history of human space travel, from early missions to the
International Space Station and future plans for lunar exploration and beyond.
Aerospace Engineering:
• Rocketry: Principles of rocket propulsion, the evolution of rockets from early designs to
modern launch vehicles.
• Spacecraft Design: Exploring the engineering behind spacecraft construction, life-
support systems, and mission capabilities.
• Satellites and Telecommunications: Understanding the role of satellites in space
exploration, communication, navigation, and Earth observation.
• Future Technologies: Exploring emerging technologies for space exploration, such as
reusable rockets, deep space exploration vehicles, and space colonization concepts.
Limitation
Managing Visitor Flow: Popular space and aerospace museums can attract large crowds.
Careful planning of exhibit layouts and visitor flow management is crucial to ensure a positive
experience for everyone.
Competing with Virtual Experiences: With the rise of virtual reality and online resources,
museums need to offer unique experiences that go beyond what can be accessed digitally.
Maintaining Complex Technology: Interactive exhibits and immersive experiences often rely
on complex technology. Museums need to plan for ongoing maintenance and upgrades to ensure
functionality and avoid outdated displays.
Accessibility for All: Integrating technology into the exhibits needs to be done in a way that's
accessible to visitors of all abilities.
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