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Climate Justice Instructional Toolkit

Funded by the Alumni Class Funds Grant, the Climate Justice Instructional Toolkit (CJIT) houses a wide-range of climate justice adaptable teaching modules, a starter guide for teaching climate justice, resources for students, and climate justice data sets that can serve as supportive tools to enhance professor and instructor teaching content and approaches across Departments, Labs, and Centers (DLCs) at MIT. 
Chris Rabe
The ESI Launches the Climate Justice Instructional Toolkit

The primary goal of these resources and programming is to provide support to faculty members and instructors across disciplines within introductory undergraduate courses to facilitate the integration of climate justice content and related instructional approaches into their courses.

Although this Toolkit was designed with MIT as being its primary audience, it is also completely open for anyone to use.

Before exploring the Climate Justice Instructional Toolkit (CJIT) resources, take a look at this starter guide which will help you familiarize yourself with the Toolkit’s resources.

Explore the Climate Justice Instructional Toolkit Resources 

Video Lectures on Teaching Climate Justice from an MITX Course

Teaching and Learning Resources for Faculty, Instructors, and Students

Foundational Climate and Environmental Justice Modules

Discipline-Specific Modules

Climate Justice Across the Curriculum Workshops

 
 
 

FAQ

Plastics are remarkable materials: versatile, durable, and cheap to produce on a truly massive scale. Unfortunately, the very qualities that make plastics so useful to humanity ensure that we will be living with their environmental impacts for centuries to come. As it breaks down to the microscopic scale, degrading over hundreds or even thousands of years, plastic waste is consumed by wildlife, absorbs and carries toxic compounds through our soil and waterways, and forms entangling webs that exact a huge toll on the ocean’s biodiversity.

The problem is accelerating. To date, humanity has manufactured over 8 billion metric tons of plastic—all of which still persists in the environment. If current trends continue, the next 8 billion metric tons will be produced in only 15 years. By 2050, the entire current stock of plastics in the environment will account for just 28% of the world’s plastic waste.

The world urgently needs a wholesale reevaluation of its relationship to plastic: from how it’s manufactured and engineered, to what purposes it’s used for, to the ways we take responsibility for those plastics already accumulating on our planet.

Plastics are remarkable materials: versatile, durable, and cheap to produce on a truly massive scale. Unfortunately, the very qualities that make plastics so useful to humanity ensure that we will be living with their environmental impacts for centuries to come. As it breaks down to the microscopic scale, degrading over hundreds or even thousands of years, plastic waste is consumed by wildlife, absorbs and carries toxic compounds through our soil and waterways, and forms entangling webs that exact a huge toll on the ocean’s biodiversity.

The problem is accelerating. To date, humanity has manufactured over 8 billion metric tons of plastic—all of which still persists in the environment. If current trends continue, the next 8 billion metric tons will be produced in only 15 years. By 2050, the entire current stock of plastics in the environment will account for just 28% of the world’s plastic waste.

The world urgently needs a wholesale reevaluation of its relationship to plastic: from how it’s manufactured and engineered, to what purposes it’s used for, to the ways we take responsibility for those plastics already accumulating on our planet.

Plastics are remarkable materials: versatile, durable, and cheap to produce on a truly massive scale. Unfortunately, the very qualities that make plastics so useful to humanity ensure that we will be living with their environmental impacts for centuries to come. As it breaks down to the microscopic scale, degrading over hundreds or even thousands of years, plastic waste is consumed by wildlife, absorbs and carries toxic compounds through our soil and waterways, and forms entangling webs that exact a huge toll on the ocean’s biodiversity.

The problem is accelerating. To date, humanity has manufactured over 8 billion metric tons of plastic—all of which still persists in the environment. If current trends continue, the next 8 billion metric tons will be produced in only 15 years. By 2050, the entire current stock of plastics in the environment will account for just 28% of the world’s plastic waste.

The world urgently needs a wholesale reevaluation of its relationship to plastic: from how it’s manufactured and engineered, to what purposes it’s used for, to the ways we take responsibility for those plastics already accumulating on our planet.

Plastics are remarkable materials: versatile, durable, and cheap to produce on a truly massive scale. Unfortunately, the very qualities that make plastics so useful to humanity ensure that we will be living with their environmental impacts for centuries to come. As it breaks down to the microscopic scale, degrading over hundreds or even thousands of years, plastic waste is consumed by wildlife, absorbs and carries toxic compounds through our soil and waterways, and forms entangling webs that exact a huge toll on the ocean’s biodiversity.

The problem is accelerating. To date, humanity has manufactured over 8 billion metric tons of plastic—all of which still persists in the environment. If current trends continue, the next 8 billion metric tons will be produced in only 15 years. By 2050, the entire current stock of plastics in the environment will account for just 28% of the world’s plastic waste.

The world urgently needs a wholesale reevaluation of its relationship to plastic: from how it’s manufactured and engineered, to what purposes it’s used for, to the ways we take responsibility for those plastics already accumulating on our planet.

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