Every German consumes an average of nearly 90 kg of meat every year. This is way too much and problematic in many ways. Industrialized production of meat is unsustainable in many ways, it affects: Land consumption, food security, climate change, animal rights, pollution and health.

But what exactly are the problems of industrial meat production? What are the global implications? And what can be done about?

Realization: edeos- digital education
http://www.edeos.org/en

This kit covers a historical overview of American representations of natural resources from ancient Indian basketry to contemporary web sites. It compares conflicting media constructions about the Exxon Valdez oil spill, the damning of rivers, and Chukchi sea oil drilling. By showing the slow realization that natural resources are finite, students will learn valuable lessons in earth, natural and environmental sciences.

Through this activity, students come to understand the environmental design considerations required when generating electricity. The electric power that we use every day at home and work is usually generated by a variety of power plants. Power plants are engineered to utilize the conversion of one form of energy to another. The main components of a power plant are an input source of energy that is used to turn large turbines, and a method to convert the turbine rotation into electricity. The input sources of energy include fossil fuels (coal, natural gas and oil), wind, water, nuclear materials and refuse. This activity focuses on how much energy can be converted to electricity from many of these input sources. It also considers the impact of the by-products associated with using these natural resources, and looks at electricity requirements. To do this, students research and evaluate the electricity needs of their community, the available local resources for generating electricity, and the impact of using those resources.

Are smart meters and smart appliances at the consumer level and smart installations at the commercial level making an impact on statewide consumption? Learn what the rollout of smart energy infrastructure in California is showing us and the vision for leveraging these investments to achieve deep energy savings. (56 minutes)

This course examines alternative conceptions and theoretical underpinnings of sustainable development. It focuses on the sustainability problems of industrial countries, and of developing states and economies in transition. It also explores the sociology of knowledge regarding sustainability, the economic and technological dimensions, and institutional imperatives, along with implications for political constitution of economic performance.
17.181 fulfills the undergraduate public policy requirement in the Political Science major and minor. Graduate students are expected to explore the subject in greater depth through reading and individual research.

This course examines alternative conceptions and theoretical underpinnings of sustainable development. It focuses on the sustainability problems of industrial countries, and of developing states and economies in transition. It also explores the sociology of knowledge regarding sustainability, the economic and technological dimensions, and institutional imperatives, along with implications for political constitution of economic performance.
17.181 fulfills the undergraduate public policy requirement in the Political Science major and minor. Graduate students are expected to explore the subject in greater depth through reading and individual research.

This book explores six strategies for eliminating the gap between consumption and renewable production.

People use energy in all aspects of their lives for cooking, lighting and entertainment. Much of this energy use takes place in buildings, such as our homes. To save money and reduce the impact on our environment, many people are reducing their energy use. One way is to hire engineers to perform home energy audits to understand the ways we use energy and identify ways we can conserve energy. In this activity, students act as energy conservation engineers and identify the ways energy is conserved or wasted. They also learn many ways to personally conserve energy everyday.

A report by the Natural Resources Defense Council, explores the water-energy connection through the topic of greenhouse gas emissions.