彩民宝典

In this module, you will delve into critical aspects of energy and environmental governance, starting with an exploration of global climate policies and their effectiveness. The focus then shifts to understanding the historical development and contemporary debates surrounding nuclear energy as an alternative to fossil fuels, examining its potential roles and challenges. The module concludes with an exploration of future energy landscapes, emphasizing renewable energy sources and their policy incentives in the United States.听

In this module, you will embark on an in-depth exploration of nuclear power, beginning with a foundational understanding of what nuclear power entails. Then, you will explore various perspectives of nuclear power as an alternative energy source before examining nuclear energy policies and technological advancements tailored for the 21st century, analyzing how regulations and innovations shape the nuclear energy landscape globally.

This module centers on an exploration of climate change and its multifaceted impacts. You will begin by examining the fundamentals of climate change before delving into the intricate relationship between weather patterns and climate change, analyzing how global warming influences regional climates and exacerbates extreme weather events. The discussion then shifts to the phenomena of El Ni帽o and La Ni帽a, exploring their roles in altering weather patterns globally and their implications for climate variability. You will also investigate the alarming trend of mountain glacier recession, studying the environmental, social, and hydrological ramifications of diminishing glaciers worldwide.

In this final module, you will explore future emission scenarios and mitigation strategies crucial for addressing climate change. First, you will examine emission scenarios, discussing how different projections influence climate models and policy decisions, and Representative Concentration Pathways (RCPs), analyzing these pathways as frameworks for quantifying greenhouse gas concentrations and their impacts on global climate. Then you will explore carbon capture and storage (CCS) technologies, focusing on their role in mitigating emissions by capturing CO2 from industrial processes and storing it underground.

Duration: 1h45min

You will complete a peer reviewed final project worth 25% of your grade. You must attempt the final in order to earn a grade in the course. If you've upgraded to the for-credit version of this course, please make sure you review the additional for-credit materials in the Introductory module and anywhere else they may be found.