Systems Thinking

Student Learning Outcome 1 Rubric

The following rubric assesses SLO 1: Students will be able to identify relationships among ecological, social, and economic systems. The goal of this SLO is for students to develop a baseline schema to identify both existing and novel examples of relationships among key sustainability components (ecological, social, and economic systems).

Student Learning Outcome 2 Rubric

The following rubric assesses SLO 2: Students will be able to demonstrate skills needed to work effectively in different types of communities. The goal of this SLO is for students to develop skills (e.g., communication, observation, interview, critical thinking, etc.) that are necessary to work with community collaborators in order to promote community action.

London Olympic Park Stadium

Multi-Criteria Decision Matrix Exercise

In preparation for the 2012 Olympic Games in London, the Olympic Delivery Authority (ODA) faced an unprecedented design challenge: create an 80,000 capacity stadium with the flexibility to be converted to a 25,000 capacity venue after the Games, and do this while achieving the ODA’s sustainability objectives. In the case study below, you’ll discover how they achieved the brief through innovative design and engineering. Furthermore, you’ll use this tool to learn more about how you, too, can make difficult design choices without compromising sustainability. To that end, this tool introduces you to the Multi-Criteria Decision Matrix, or, Values-based Decision Making.

The Georgia Tech Sustainability Timeline: A Guided Conversation

The Georgia Tech Sustainability Timeline offers a detailed portrait of the university's commitment to sustainability, from humble beginnings to its introduction of major initiatives like Serve-Learn-Sustain. This tool pairs the Timeline with a Guided Discussion strategy known as ORID (Observe, Reflect, Interpret, Decide). Using ORID, you will generate productive conversations about the University's past, present, and future as a leader of sustainability.

You can use the ORID framework to guide almost any conversation, in the classroom or the workplace. Read more about it here.

This tool was contributed by Bethany Jacobs and Delaney Rickles.

SLS Case Study: The Flint Water Crisis

The Flint Water Crisis is one of the most significant instances of environmental injustice in the 21st century.  In this case study, read about the impact of the crisis on the natural world, as well as the residents of Flint, Michigan, and learn about how we can use technology to create a safe, sustainable water system. Serve-Learn-Sustain interprets sustainable communities as integrated systems, wherein nature, technology and society all inform each other. As you read this case study, consider these terms as discrete factors, but also as connected.

This tool was contributed by Bethany Jacobs. 

SLS Case Study: The Atlanta BeltLine

The Atlanta BeltLine is one of the most important urban renewal projects of the 21st century. In this case study, read about the ambitions, successes, and struggles of this project, now in its 12th year. Serve-Learn-Sustain interprets sustainable communities as integrated systems, wherein environmental, economic, and social factors all inform each other. As you read this case study, consider these terms as discrete factors, but also as connected.  This tool was contributed by Dr. Bethany Jacobs.

An Intro to Community Health

Community health is the state of wellbeing of a group of individuals who share common attitudes, beliefs, interests, histories, and/or goals. Use this tool to explore what it means to optimize the health and quality of life of community members in a socially just and holistic way. Students will learn the many factors that contribute to the health of individuals and communities, as well as the people and resources that influence the health of a community. The discussion questions will aid students in breaking down the complexities of community health, as well as understanding their role in contributing to potential solutions.

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