This module is all about bringing the effect of carbon production home, so to speak, by determining your own carbon footprints based on personal energy use. Note that the method for calculating one's carbon footprint is similar to calculating Scope 1 and 2 emissions for a business (as part of the Greenhouse Gas Protocol.) After an initial exercise of calculating your personal transportation carbon footprint, we turn our attention to the residential footprint. First, you'll uncover the standard utility bill; what's on it and what it all means. Then, you'll be introduced to, and apply, the EPA (US Environmental Protection Agency)'s eGrid website to determine the Carbon Emissions Factor and mix of power generation technologies for your area. Next, you'll calculate a CO2-equivalent footprint, based on the EPA's emission factors for methane, nitrous oxide, natural gas, and propane. The module concludes with an example of a typical U.S. college student's residential carbon footprint. Then, you'll see how it compares to other countries as well as your own!

The module is all about sustainable products and packaging. We introduce the concept that sustainable products are true differentiators in the market and highlight several well-known examples. You'll learn what constitutes a sustainable product in terms of the circular economy's butterfly diagram: safe materials, long-life, ease of repair and maintenance, and ease of disassembly for ultimate recycling. We then shift to sustainable packaging, starting with understanding the significant challenge associated with packaging waste. We end the module with an overview of why packaging exists, and some ways of making it more sustainable. This week, you'll also gain awareness of your own packaging consumption as you undergo the 7-day plastics challenge and share your experience with peers. We can't wait to hear what you learn from it!

This module introduces the topic of life cycle assessments or LCA's. You will learn how to establish system boundaries, define functional units, and know where to look for environmental impact data. More importantly, you'll think critically about conflicting paradigms, such as product designs that could good from a greenhouse gas perspective but are detrimental from an eco-toxicity view. While you may not become a full LCA specialist by the end of this module, you can begin to appreciate the complexity and cost of conducting a full LCA, which is why the Streamlined LCA was designed. It simplifies the process at the expense of accuracy, yet it still provides guidance to product and process designs to reduce environmental impact. You'll be able to practice this hands on, when you conduct an SLCA on gold wedding rings. Finally, you'll learn one last tool for environmental impact analysis: the Eco-Audit. Eco-Audits are particularly important in analyzing the impact of materials and understanding the concept of embodied energy.

Congratulations on almost completing the course! This final module outlines the specific tools and frameworks used to design, engineer, and manufacture sustainable and circular products along with the packaging that protects them. As a useful and pragmatic framework, we discuss the Cradle-to-Cradle (C2C) design methodology in some detail, showing how the C2C's Certification process is analogous the the LEED standards for the built environment. We'll also touch on other approaches to sustainable product design with the frameworks of Biomimicry and The Natural Step. You've almost come full circle, and we hope you've enjoyed this course!