Quantum Technologies in Climate and Environmental Science
This course explores the intersection of quantum science and environmental sustainability, focusing on how quantum technologies can enhance climate modeling, energy efficiency, pollution monitoring, and sustainable practices. It covers foundational quantum concepts, real-world applications, and future research directions in addressing climate change and environmental challenges.
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Course Duration:
24 hours
Level:
Intermediate
Course Objectives
Understand the basic principles of quantum mechanics relevant to climate and environmental applications.
Explore the role of quantum computing in climate modeling and weather prediction.
Analyse the impact of quantum sensing in pollution detection and ecosystem monitoring.
Examine the role of quantum materials in sustainable energy and carbon reduction.
Evaluate policy implications, ethical considerations, and emerging research trends in quantum sustainability.
Prerequisites
Basic understanding of quantum mechanics and computing principles.
Familiarity with climate science and environmental sustainability concepts.
Some experience with mathematical modeling or computational simulations (recommended but not mandatory).
