Project-MOONSHOT ACADEMY

Start-up Game Studio Experience

Disciplines/Subjects: Computer Science, Art Key Themes: Game Development, Unity Game Engine, 3D Modeling, Blender, Game Design This project aims to provide a comprehensive start-up game studio experience by integrating computer science and art. Students will begin with the history and theory of game design, gradually mastering key skills such as 3D modeling and map design, and ultimately apply their knowledge in a simulated game studio environment to develop a 2D anti-war-themed game called "Dark Forest." The game tells the story of a kitten traversing a nuclear radiation-contaminated forest in a desolate world after a nuclear explosion, searching for its dog companion and seeking refuge. Through this game, students will learn how to combine programming techniques with creative design, solve technical challenges, and maintain the uniqueness of the game while meeting market demands. Throughout the project, students will experience the entire game development process, from concept to completion, which not only hone their project management and teamwork skills but also deepen their understanding of game design and development in practice. "Dark Forest," with its profound social significance and engaging storyline, becomes a medium for students to convey messages of peace and anti-war, while also exercising their ability to balance creative expression with technical implementation. Ultimately, students will emerge with a complete game project and a range of transferable skills, preparing them for future careers or entrepreneurial paths. This project is not only an educational innovation but also a transformation that combines technology, art, and social responsibility, aiming to cultivate the next generation of game developers and improve education and social awareness through technology.

AI-Controlled Tabletop Greenhouse

Disciplines/Subjects: Computer Science, Environmental Science, Agriculture, Robotics Key Themes: Artificial Intelligence, Large Language Models, Model Design, Sustainable Technology In this innovative final project, students will design and build an AI-controlled tabletop greenhouse that integrates modern technology with sustainable agriculture. The project begins with students brainstorming and sketching potential designs, considering functionality, aesthetics, and structural integrity. Using CAD software, they will create precise digital blueprints of their greenhouse. These designs will then be brought to life using a laser cutter to fabricate the structure’s components. Once cut, students will assemble the pieces, ensuring the greenhouse is sturdy and waterproof, which may involve sealing edges with silicon or other waterproofing materials. The interior of the greenhouse will be filled with soil and planted with real vegetation. The heart of the project lies in integrating an AI-controlled environment to optimize plant growth. Students will install a series of sensors, including a soil moisture sensor to monitor water content. If the soil becomes too dry, a microcontroller, such as a Micro: bit, will automatically activate a watering system. To ensure plants receive adequate light, LED grow lights will be programmed to turn on and off based on a preset schedule or environmental feedback. To maintain an optimal temperature, the greenhouse will include fans for cooling and windows that can be opened automatically based on temperature readings. Students will program these systems using the Micro: bit, combining coding with hardware integration. Throughout the project, students will test, refine, and troubleshoot their prototypes to achieve an efficient, self-sustaining system. This project combines design, engineering, and environmental science while fostering skills in CAD, laser cutting, circuitry, coding, and problem-solving. By the end of the project, students will have a functional tabletop greenhouse and a deeper understanding of how AI and technology can contribute to sustainable agriculture. This hands-on experience will prepare them for real-world applications of STEM disciplines.

AIGC at hand

Disciplines/Subjects: User Experience Design, Product Design Key Themes: Interest-driven, Mobile-end products, AIGC, Innovation UX design, as an applied discipline, is constantly evolving due to technological and social developments. The aim of the "AIGC at hand" project is to enable learners to focus on the cutting-edge trends of technological development within a specific period. Through designing AIGC products, while getting to know new technologies, they can deeply understand and learn to apply how technologies serve daily life, achieving an effective connection between knowledge and practice, and cultivating their acute perception and practical ability in technological application. The theme of the project is open but with certain restrictions. During the project implementation, learners can deeply explore user needs in the fields they are passionate about and transform these needs into services of mobile products. The crucial limiting factor is that AIGC technology must be used. Moreover, the integration of technology and product should not be a rigid and forced insertion, but rather a natural and smooth incorporation into the product design, effectively enhancing user experience and product value. For example, the "Journey" product created by learners - specifically serving the particular scenario of multi-person travel among young people, based on the AI large model, helps users jointly customize personalized travel itineraries and plans. Because the product precisely targets user pain points and enables the skillful application of AIGC technology, it has received recognition from enterprises and school experts.

SDG community challenge

Disciplines/Subjects: Social Sciences，design thinking Key Themes: Sustainability, Marginalized Groups, Community Action Have you ever heard about sustainable development or Sustainble Development Goals? Why are they important? Are they close/relevant to our lives? When more government, organizations, businesses, schools are adpoting SDG in their own daily operation, shall we and can we get more MSAers on board? Your goal in this comprehensive project is to develop a SDG-related campaign to raise community' members's awareness about your chosen topic. This year, we have a specific focus on the interplay of environmental and social problems. You will join the month-long "From Moon to Earth" campaign initiated by the social sciences department, the Blue, and the Green Houses.

Impact of Protected Areas in Brazilian Amazon

Disciplines/Subjects: Environmental Science, Ecology, Political Science, Economics Key Themes: Impact of Protected Areas (PAs) in the Brazilian Amazon, highlighting both the benefits and costs associated with these conservation efforts The article, "Impact of Protected Areas in Brazilian Amazon," examines the complex relationship between Protected Areas (PAs) and their impact on the Brazilian Amazon rainforest. The Amazon rainforest plays a vital role in regulating global climate and is home to a significant portion of Earth's terrestrial species12. Deforestation, driven by the need for ranching and agriculture, threatens this ecosystem, leading to biodiversity loss and increased carbon emissions2. PAs have emerged as a crucial strategy to mitigate deforestation and preserve the Amazon.

How does adjusting the amount of the additives of sorbitol, glycerin, and titanium dioxide affect the properties of CMC-gelatin-agar plastic?

Disciplines/Subjects: Materials Science and Engineering; Polymer Chemistry; Environmental Science; Microbiology Key Themes: Sustainable Alternatives to Petroleum-Based Plastics This research investigates the impact of different additives on the properties of biodegradable plastics made from carboxymethyl cellulose (CMC), gelatin, and agar. The study focuses on sorbitol and glycerin as plasticizers to improve the plastic's ductility, and titanium dioxide (TiO2) to enhance its color. The researchers found that glycerin and sorbitol effectively increased the plastic's flexibility. They also observed that TiO2 successfully adjusted the film's color, making it whiter. The study concludes that adjusting the additive amounts is crucial for achieving a balance of desired properties in CMC-gelatin-agar plastic6. The research suggests that this type of biodegradable plastic has the potential to replace traditional petroleum-based plastics, contributing to environmental protection.

AI Unraveled: Delving Into the Debates on Artificial Intelligence

Disciplines/Subjects: Pre-Advanced English - Nonfiction Key Themes: Human Relationship with Technology, Machine Intelligence, Computational Creativity, AI Ethics, Narrative (Media Representation) of AI This project invites students to become thought leaders by exploring the complexities of AI and its connections to intelligence, creativity, and ethics. Tackling controversial topics, they aim to spark curiosity, challenge misconceptions, and inspire critical thinking about AI's impact on the future. Students begin by selecting a contested issue in artificial intelligence to investigate. They gather perspectives through surveys, informal conversations, and real-world examples, using their findings to shape a thesis and driving question. To support their position, students are required to use case examples to illustrate and support their argument. The project culminates in an 800–1200-word essay, complemented by a creative cover page, showcasing their insights and discoveries. Students are also expected to share their views in an engaging presentation that raises awareness about the AI issue and encourages personal reflection on their learning journey. To extend their advocacy, they design a compelling postcard to communicate their message and spark dialogue beyond the classroom. Through this work, students develop expertise, promote informed perspectives, and inspire meaningful conversations about one of the most critical topics of our time.

The Power of Pandemics

Disciplines/Subjects: History, Political Sciences Key Themes: Pandemics, History, Virus, Bacteria Speaking of the aftermath of COVID-19, Melinda Gates believed that “this pandemic [had] magnified every existing inequality in our society — like systemic racism, gender inequality, and poverty.” Gates had made a critical point that diseases and societal tensions are rarely separated. Indeed, there is a reason that we call perpetual social issues, social ills. Where is this global pandemic leading us? What effect - social, political, and cultural - will it create? How do we, as a collective, prevent the next pandemic? We are still amid the torrent to produce a clear vision of the future, so let's pause, and look back in history. For this project, you are expected to create two history magazines (May edition, 2024) catering to students in Grades 5 and Grades 7-8, respectively. Your goal is to introduce and delineate the causes and effects of five pandemics — plague, smallpox, Malaria, Influenza, and HIV/AIDS — to your audience. Keep in mind that you need to demonstrate: the biological and social causes of pandemics the social, political, and cultural effects of pandemics more crucially, the awareness of your audience's ability to read and understand your message Individually, you will also submit a 1200-word essay discussing the causes and effects of your chosen pandemic.

Project

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