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| A MARTIAN ADVENTURE! |
FRANÇAIS app de traduction à gauche
Embarking on the exploration of Mars is a thrilling prospect, encapsulating the essence of human curiosity and the desire for scientific discovery. In the realm of space exploration, where innovative technologies and bold visions collide, ROUGE 2100 stands out as a pioneering project that envisions a sustainable human presence on the enigmatic red planet.
At the heart of ROUGE 2100 is a fusion of art and science, meticulously crafted to transport participants on a captivating journey from a fictional base atop Mount Olympus, Earth's highest volcano, symbolizing our ascent towards cosmic understanding. Divided into five immersive chapters, each akin to a room teeming with intricate details of Martian life, ROUGE 2100 invites us to witness the interplay between human ingenuity and the challenges of extraterrestrial habitation.
Guiding us through this cosmic odyssey is Felicity 87, an artificial intelligence companion adept at unraveling the complexities of Martian existence. As we depart Earth's familiar embrace, ROUGE 2100 catapults us into a realm where science fiction seamlessly merges with tangible reality, paving the way for unprecedented discoveries and insights into Mars' mysteries.
Aerospace engineer Farah Alibay and visionary creative director Jeannot Painchaud of Cirque Éloize spearhead ROUGE 2100, infusing their expertise and creativity to chart a course towards Martian habitation. Together, they tackle fundamental inquiries that resonate with every aspiring spacefarer—adaptation to Mars' unique environment, sustainable energy sources, and innovations in spacesuit technology for safe traversal on the Martian terrain.
For more information and tickets HERE
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| As the airlock doors swish open, revealing the interior of the spaceship bound for Mars, a sense of anticipation fills the air. The deck is meticulously designed to ensure the well-being and comfort of its human passengers during the long journey ahead. © LENA GHIO 2024 |
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| The spacecraft's environmental control system includes devices that capture and condense moisture from the air. This moisture is collected, filtered, and added to the water supply. This method is particularly effective in space environments where humidity levels can be controlled to optimize water recovery. © LENA GHIO 2024 |
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| A spacious common area serves as the social hub of the deck. It features a panoramic viewport that offers breathtaking views of space and distant planets, creating a sense of connection to the vastness of the cosmos. Comfortable seating arrangements are scattered around, encouraging passengers to gather, socialize, or simply relax and enjoy the view. The area also includes a small library, a recreational zone with virtual reality simulators for exercise and entertainment, and a dining area where meals are served. © LENA GHIO 2024 |
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| The plant nurseries on a Martian space station are marvels of engineering and sustainability, designed to support life in the harsh and inhospitable environment of Mars. These nurseries serve a vital role in providing food, oxygen, psychological well-being, and research opportunities for the station's inhabitants. Here's a detailed description of how these plant nurseries might operate: controlled environments, artificial lighting systems, hydroponic and aeroponic systems, nutrient management, climate control, species diversity, pollinators and pest management, research and experimentation, psychological well-being, oxygen generation. © LENA GHIO 2024 |
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