Project-MOONSHOT ACADEMY

Entering the world of elderly

Disciplines/Subjects: sociology, design thinkings Key Themes: elderly, teenager, empathy The Incubator Track in MSA is a year-long, interdisciplinary program that empowers students to develop and launch social impact projects. Students will first define and understand a social problem, and then initiate an action to promote changes around that problem. Along with a variety of social science research and problem-solving methods, learners will also enhance their project management, leadership, and communication skills. The rapidly developing technology is convenient for citizens’ lives, but trouble has been brought to the elderly at the same time. Due to their dissatisfaction with social and emotional needs, the elderly suffer from loneliness and a series of severe consequences brought by loneliness. Loneliness may cause a variety of dangers that can threaten the health of the elderly. We discovered that providing support for the elderly to express and communicate with others reduces their sense of loneliness. We decided to aim at reducing the loneliness of the elderly by building a connection between them.

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.

Adolescent Intervention

Disciplines/Subjects: Pyschology Key Themes: Adolescent, Well-being, peer support Welcome to the revitalization of our school's counseling center, a project spearheaded by a team of learners aimed at transforming an underutilized space into a vibrant hub for student well-being. The project goal is to create an inviting environment that encourages more frequent use by understanding and addressing the needs of our high school peers. Through a comprehensive process that includes needs assessment, design, implementation, promotion, and evaluation, the team will introduce interactive projects, educational posters, relevant books, and stress-relief equipment to make the counseling center a place where learners feel comfortable seeking support and spending time. This initiative not only promises to enhance the physical space but also to foster a sense of community and belonging among our learners, ultimately contributing to their overall mental health and academic success. Learner Task: A product design implemented and feedback gathered from the direct audience. You can choose the format of the final product. However, written or recorded rationale needs to be provided to showcase your thinking process.

The Science behind Well-Being

Disciplines/Subjects: AP Psychology Key Themes: Adolescent development, subjective well-being, family relationship, social-emotional learning Being embedded in the chapter of Developmental Psychology in the AP Psychology class, this project focuses on promoting both learners’ understanding of well-being and their research skills. Currently, in the most formative phase of their lives, learners often find themselves confused by changes in both their bodies and the environment around them. By connecting their subject well-being to one other variable of their own choice, learners are expected to deepen their understanding of their well-being in the context of adolescent social-emotional development through scientific lenses as well as certain psychological research methods.

Phenological Investigations: Understanding Plant Responses to Environmental Changes

Disciplines/Subjects: Phenology, Botany, Ecology Key Themes: Phenology, Plant Physiology, Data Collection and Analysis, Environmental Changes Students will take on the role of phenologists, scientists who study the timing of biological events about environmental conditions. This project will involve observing and documenting the phenological stages of various plant species on the school campus, and analyzing how environmental factors influence these stages. This real-world task allows students to engage in authentic scientific inquiry and produce meaningful outputs that could be used for ecological studies or shared with the local community.

Energy Hacker-Reviving Spaces for Efficiency

Disciplines/Subjects: Physics, Mathematics, Environmental Science, Engineering, Computer Science, Sustainable Development and Energy Management Key Themes: Sustainable Development, 3D Printing, Energy Management This project focuses on creating an energy-efficient renovation system for school classrooms through innovative energy technologies and design methods. We are developing a comprehensive energy efficiency improvement plan aimed at maximizing classroom energy efficiency and minimizing energy waste through the use of renewable energy and energy-saving technologies. Traditional energy renovations often rely on manual intervention, which is costly and difficult to scale. Our system leverages scientific energy surveys, heat loss calculations, and the application of energy-saving technologies to provide an energy management solution that can be continuously assessed and improved, helping schools reduce energy consumption and lower carbon emissions. The core of this project is a data-driven analytical engine that provides quantifiable energy-saving solutions by calculating classroom energy consumption, heat loss, and the effects of energy-saving measures. Through detailed energy surveys and heat loss analysis of the classroom, students will propose the most suitable energy-saving renovation plans based on data, ensuring that the renovated classroom maintains efficient energy use under various environmental conditions. To better demonstrate the results of the energy-saving renovation, students will create 3D-printed models simulating the energy consumption of the renovated classroom. Through these models, such as adding insulation, installing solar panels, and upgrading the lighting system, students will visually understand how spatial design can enhance energy efficiency. Indoor circuit design will also be integrated, with students designing and simulating new lighting and energy systems to demonstrate how proper circuit design can reduce energy waste. For the thermal energy aspect, students will create a thermal energy demonstration model, visually showing heat loss and heat flow to demonstrate how different building materials and design solutions impact energy efficiency. This model will help students understand how to reduce heat loss in classrooms by improving insulation materials, enhancing window and door sealing, and installing energy-saving devices. Through this intelligent energy-saving design and feedback mechanism, students will gain a systematic energy renovation experience, learning how to improve classroom energy efficiency while reducing environmental impact through reasonable design. We believe that through this project, students will not only enhance their environmental awareness and practical skills but also bring sustainable energy solutions to the school, contributing to the achievement of sustainable development goals. This project is not only a technical tool but also a social transformation aimed at improving the energy efficiency and environmental quality of schools.

Project

Real-world projects creating positive impacts for self, others, communities, and the planet.