Data Science for Public Policy introduces big data for social science and public policy applications. Students learn foundations of data science and learn to
conduct field experiments with an aim to solve social, environmental problems in major policy areas.
The laboratory portion of this course focuses on foundational principles and essential techniques of chemistry. These conceptual and technical tools have great relevance to many issues of importance to society, including climate change, human health, economic security, and more. SLS-related experiments in CHEM 1211K will be related to five threads of sustainability in chemistry: Green Chemistry, Chemistry and Society, Everyday Chemical Analysis, Computational Chemistry, and Climate Change.
This course provides a product design algorithm that can facilitate design and development of new or improved products. The design process emphasizes the concepts of sustainability, and discusses the impact of products, specifically chemical products on the community. Product design is discussed from the social, cultural and environmental perspectives, whereby the need for technology development for the social good becomes key.
Technology and Society examines connections between the history of technology and other aspects of human history. The course uses historical episodes to challenge widely held misperceptions about technology and how it operates in the modern world. I argue that technology is a human product, not an autonomous force. Technology makes nothing happen by itself, but only as the result of human action. People can choose to design and use technology in different ways to better serve human needs.
The laboratory portion of this course focuses on foundational principles and essential techniques of chemistry. These conceptual and technical tools have great relevance to many issues of importance to society, including climate change, human health, economic security, and more. SLS-related experiments in CHEM 1212K will be related to five threads of sustainability in chemistry: Green Chemistry, Chemistry and Society, Everyday Chemical Analysis, Computational Chemistry, and Climate Change.
Capstone Design-Environmental Section is an interdisciplinary environmental design experience. The course is offered in parallel with the civil engineering section of the course; CEE students may form teams with mixed CE and EnvE composition; and teams from each program may perform projects in either section. Students form teams of 3 – 5 people, and these teams function as “companies” that provide engineering services under guidance of a sponsor on design project that the team selects.
In recent years, a variety of disciplines in the sciences have made achieving sustainability one of their foundational values. Scholars within these disciplines have devoted their expertise to developing programs and campaigns for achieving a more sustainable world. But these campaigns need broad public support to succeed, and academic scholarship isn’t always written with a public audience in mind. How can scholars present their ideas so as to make them widely accessible and thus, more successful? This tool will introduce you to important concepts in science communication, and guide you through an analysis of real-world examples of sustainability-related science communication. It also includes wrap-up questions, additional resources, and suggestions for collaborative learning opportunities.
Starting a community garden in an abandoned vacant lot is a good way to address blight in a neighborhood. This project builds on the dataset of Westside Atlanta property surveys and walks the students through the process of starting a community garden to selling its produce on farmers markets. It emphasizes the social aspect of community building and the importance of buying local.
This is a collection of assignments around the problem of rodent infestation in cities, which has become a pressing problem following the mild winters in 2015-16. The assignments are designed to 1) develop mapping and data analysis skills, 2) give meaningful ideas for application prototyping, and 3) foster thinking about community engagement. This is based on an up-to-date (2017) dataset of rat sightings in New York City and an on-going collaboration between Georgia Tech and the community of English Avenue.