An ecosystem is a community of organisms living within the same environment. …
An ecosystem is a community of organisms living within the same environment. For this project, kids will build a thriving ecosystem they can put in the window at home. Add a little fishy friend and this project relies on you daily to keep the ecosystem healthy and balanced.
This video looks at the global population and trends. It also explains …
This video looks at the global population and trends. It also explains the concept of carrying capacity and how a person's behavior influences carrying capacity. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
This video describes the ecological footprint and its limitation. It goes into …
This video describes the ecological footprint and its limitation. It goes into some depth on the computation on the footprint and what it means for the global population. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
Working in groups, students look at three different villages in various parts …
Working in groups, students look at three different villages in various parts of Africa and design economically viable engineering solutions to answer the energy needs of the off-the-grid small towns, given limited budgets. Each village has different nearby resources, both renewable and nonrenewable. Student teams conduct research, make calculations, consider the options and create plans, which they present to the class. Through their investigations and planning of custom solutions for each locale, they experience the real-world engineering research and analysis steps of the engineering design process.
In this activity, students act as power engineers by specifying the power …
In this activity, students act as power engineers by specifying the power plants to build for a community. They are given a budget, an expected power demand from the community, and different power plant options with corresponding environmental effects. They can work through this scenario as a class or on their own.
This lesson provides students with an overview of the electric power industry …
This lesson provides students with an overview of the electric power industry in the United States. Students also become familiar with the environmental impacts associated with a variety of energy sources.
This is a whole lesson plan dedicated to teaching our students the …
This is a whole lesson plan dedicated to teaching our students the importance of trees and why and how we should care for them. Has many good resources included, including videos, questions for discussions, a Kahoot game, and other fun activities that will engage learners.
Students read and evaluate descriptions of how people live "off the grid" …
Students read and evaluate descriptions of how people live "off the grid" using solar power and come to understand better the degree to which that lifestyle is or is not truly independent of technological, economic and cultural infrastructure and resources. In the process, students develop a deeper appreciation of the meaning of "community" and the need for human connection. This activity is geared towards fifth-grade and older students and Internet research capabilities are required. Portions of this activity may be appropriate with younger students.
The principles and practice of tissue engineering (and regenerative medicine) are taught …
The principles and practice of tissue engineering (and regenerative medicine) are taught by faculty of the Harvard-MIT Division of Health Sciences and Technology (HST) and Tsinghua University, Beijing, China. The principles underlying strategies for employing selected cells, biomaterial scaffolds, soluble regulators or their genes, and mechanical loading and culture conditions, for the regeneration of tissues and organs in vitro and in vivo are addressed. Differentiated cell types and stem cells are compared and contrasted for this application, as are natural and synthetic scaffolds. Methodology for the preparation of cells and scaffolds in practice is described. The rationale for employing selected growth factors is covered and the techniques for incorporating their genes into the scaffolds are examined. Discussion also addresses the influence of environmental factors including mechanical loading and culture conditions (e.g., static versus dynamic). Methods for fabricating tissue-engineered products and devices for implantation are taught. Examples of tissue engineering-based procedures currently employed clinically are analyzed as case studies.
This class introduces students to the interdisciplinary nature of 21st-century engineering projects …
This class introduces students to the interdisciplinary nature of 21st-century engineering projects with three threads of learning: a technical toolkit, a social science toolkit, and a methodology for problem-based learning. Students encounter the social, political, economic, and technological challenges of engineering practice by participating in real engineering projects with faculty and industry; this semester’s major project focuses on the engineering and economics of solar cells. Student teams will create prototypes and mixed media reports with exercises in project planning, analysis, design, optimization, demonstration, reporting and team building.
Quantitative analysis of uncertainty and risk for engineering applications. Fundamentals of probability, …
Quantitative analysis of uncertainty and risk for engineering applications. Fundamentals of probability, random processes, statistics, and decision analysis. Random variables and vectors, uncertainty propagation, conditional distributions, and second-moment analysis. Introduction to system reliability. Bayesian analysis and risk-based decision. Estimation of distribution parameters, hypothesis testing, and simple and multiple linear regressions. Poisson and Markov processes. Emphasis on application to engineering problems.
Sustainability challenges organizations to address the implications – and responses – in …
Sustainability challenges organizations to address the implications – and responses – in their own operations and supply chain, products/services/markets, and community responsibilities. This course exposes students to professionals and organizations who are actively working toward making their organizations and industries sustainable.
Project Evaluation covers methodologies for evaluating civil engineering projects, which typically are …
Project Evaluation covers methodologies for evaluating civil engineering projects, which typically are large-scale and long-lived and involve many economic, financial, social and environmental factors. The course places an emphasis on dealing with uncertainty. Students learn basic techniques of engineering economics, including net present value analysis, life-cycle costing, benefit-cost analysis, and other approaches to project evaluation. Examples are drawn from both contemporary and historical projects in various fields, including transportation systems, urban development, energy and environmental projects, water resource management, telecommunications systems, and other elements of the public and private projects and programs.
Climate change is one of the biggest risks facing governments, businesses, societies …
Climate change is one of the biggest risks facing governments, businesses, societies and ecosystems around the world. Project managers, through their effective direction of complex projects, occupy a critical role in the successful transition to a resilient, low carbon world. This course is designed to prepare professionals with project management responsibilities to add a climate change lens to their projects.
The course is suitable for individuals in management roles and above who have significant project management responsibilities. “Projects” could include examples as diverse as infrastructure development, deployment of new technology, ecosystem restoration, or public engagement campaign, for example. The course will attract a diversity of professionals who enjoy multidisciplinary learning environments. Familiarity with general climate change issues and science is recommended.
This is a lesson plan detailing the negative impacts modern human civilization …
This is a lesson plan detailing the negative impacts modern human civilization has on the environment. This lesson tries to convey ways on how we can use our modern technology to help protect the environment by having the students build an electronic circuit.
Biodiversity is a shortened form of the term "biological diversity." The entire …
Biodiversity is a shortened form of the term "biological diversity." The entire spectrum of life forms and the many ecological processes support them. Wisconsin is blessed with abundant biodiversity. Located at the junction of the eastern deciduous forest, northern boreal forest and temperate grasslands, we have a wealth of species and natural communities.
Approximately 1,800 species of native plants and close to 700 species of native vertebrates have been identified in Wisconsin. In addition, there are thousands of species of non-vascular plants and invertebrates. These pages highlight the uncommon and rare species, natural communities, geological features and essential habitat areas throughout Wisconsin.
This course discusses the evolution and role of urban public transportation modes, …
This course discusses the evolution and role of urban public transportation modes, systems, and services, focusing on bus and rail. It covers various topics, including current practice and new methods for data collection and analysis, performance monitoring, route design, frequency determination, vehicle and crew scheduling, effect of pricing policy and service quality on ridership.
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