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Code |
Course Title |
Lecturer |
Semester |
Week/Period |
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3799-204
GEN-CO6z41L1
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統合物質科学俯瞰講義II Global Focus on Materials Science Ⅱ
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各教員 |
S1S2 |
木曜6限
Thu 6th |
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FEN-SI2504L1
FEN-SI2504L1
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地球科学 Earth System Science
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加藤 泰浩 Yasuhiro Kato |
A1 |
火曜2限
金曜2限
Tue 2nd Fri 2nd |
環境問題と資源・エネルギー問題を考える上での基礎となる地球科学の知識を習得するとともに、それが環境・資源工学の最前線でどのように活かされているのかを学ぶ。
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31D360-0120S
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Special Lecture on Environmental Management and Policy I Special Lecture on Environmental Management and Policy I
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ジロドウ イザベル GIRAUDOU Isabelle |
S1S2 |
月曜5限
Mon 5th |
Scientific projections of catastrophic climate change and anxieties about other worldwide environmental problems have combined to generate intense debates over how humans should respond to such pressing issues. Focusing on environmental decision/rule making, and drawing on ‘Science, Technology and Society (STS)’ as a complementary field of study, this course examines how the institutional shaping of scientific knowledge influences the way law addresses climate change. Through short interactive lectures, classroom discussions, oral presentations, and possibly small-scale research projects as well, we will investigate the ‘who, what, why, and how’ of both climate change negotiation and climate change litigation as part of environmental governance. In so doing, we will explore: 1) the relevance for global environmental governance of networked stuctures within which states and non-states actors interact (with a focus on both institutional science-policy interfaces and the so-called ‘regime complexes’); 2) the legitimacy of such emergent environmental regulatory frameworks based on negotiated rule-making processes; 3) the growing importance of ‘green’ courts and tribunals for the promotion of climate justice; 4) the new understanding of courts as sites for public debates over science and of climate change litigation as both a mitigation and an adaptation tool.
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31M360-0120S
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Special Lecture on Environmental Management and Policy I Special Lecture on Environmental Management and Policy I
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ジロドウ イザベル GIRAUDOU Isabelle |
S1S2 |
月曜5限
Mon 5th |
Scientific projections of catastrophic climate change and anxieties about other worldwide environmental problems have combined to generate intense debates over how humans should respond to such pressing issues. Focusing on environmental decision/rule making, and drawing on ‘Science, Technology and Society (STS)’ as a complementary field of study, this course examines how the institutional shaping of scientific knowledge influences the way law addresses climate change. Through short interactive lectures, classroom discussions, oral presentations, and possibly small-scale research projects as well, students will investigate the ‘who, what, why, and how’ of both climate change negotiation and climate change litigation as part of environmental governance. In so doing, they will explore: 1) the relevance for global environmental governance of networked stuctures within which states and non-states actors interact (with a focus on both institutional science-policy interfaces and the so-called ‘regime complexes’); 2) the legitimacy of such emergent environmental regulatory frameworks based on negotiated rule-making processes; 3) the growing importance of ‘green’ courts and tribunals for the promotion of climate justice; 4) the new understanding of courts as sites for public debates over science and of climate change litigation as both a mitigation and an adaptation tool.
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5122400
GPP-MP6P20L3
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Global Governance Global Governance
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TIBERGHIEN Yves TIBERGHIEN Yves |
A1A2 |
集中
Intensive |
Purpose of this course is obtaining a solid understanding and some critical skills at five levels: 1. The theoretical dilemmas of global governance in the current age; 2. The ability to unpack the process of creating global governance (comparing different arenas) 3. The ability to develop a pathway to analyze and solve governance problems; 4. A better empirical understanding of the particular historical juncture of our current period in a larger comparative perspective with a focus on the interplay between the US, the EU, Japan, and large emerging powers (China, India, Brazil) among others. 5. And empirical knowledge on four issue areas: global finance, climate change, and biosafety from the perspective of global governance, and a changing balance of power
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08D1433
FAS-DA4F33L3
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物質循環科学IV Earth System Science IV
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横山 祐典 YOKOYAMA, Yusuke |
A1A2 |
月曜5限
Mon 5th |
This course provides overview of climate variation including recent global warming as well as its components. (1) Climate history: Overseas the Earth's climate in the past that are dynamically changed due to various interactions between climate system components (2) Changes in greenhouse gases (including carbon dioxide) and aerosols-clouds alter radiation energy balance, leading to climate changes. Important processes related to the energy budget of the atmosphere-ocean system are explained. Roadmaps to mitigate global warming are also explained (3) Ocean Circulation: Structure of surface and deep circulations transporting heat and materials in the global ocean and its temporal variation, together with their mechanisms (4) Ocean biogeochemical cycle is an important component of climate system, and its role on climate changes is discussed in this lecture This course is complementary with “Earth System Science I” given in the same semester, and participation in both courses is recommended.
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47143-06
GFS-IB6D02L3
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科学技術英語討論演習 Debate on Topics in Science and Technology
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大矢 禎一 OYA Yoshikazu |
S1S2 |
集中
Intensive |
生命科学の研究対象は「地球の構成要素である生命体」であり、「我々人間」でもある。従って「生命科学」は「地球規模の問題」や「人間社会の問題」と深いつながりを持っている。そこでこの英語討論演習ではこれらの課題について専門家が話題提供するとともに、受講生自らが状況分析や問題提起を積極的に行って、討論演習を行う。 Target of Biological Science is to understand and study “living organisms” including “human being” that are present on the earth. Therefore, Biological Science is tightly linked to the global issues and many aspects in human society. Lecture, presentation and discussion on these issues in this course will inspire you to be expert and active on the ethical issues in Biological Science.
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35616-1001
GSC-EP6103L2
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大気物理学I Atmospheric Physics I
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鈴木 健太郎 SUZUKI Kentaro |
A1A2 |
月曜3限
Mon 3rd |
地球表層の気候システムは太陽から受け取る太陽放射エネルギーと宇宙空間へ射出する地球放射エネルギーによって駆動される熱機関であるため、これらのエネルギーの伝達機構とその地球表層系との相互作用を理解することは、気候の形成・変動メカニズムを理解する上で重要である。また、地球のエネルギー収支に深く影響する雲・降水の生成・維持に関わる雲物理も大気科学における重要な分野である。本講義では、このような重要性を持つ放射伝達過程と雲物理過程の基本的理解とともに、気候形成における放射エネルギー収支の役割と、その気候モデリング・衛星観測への応用についての基本的知識を学ぶ。 Knowledge of the atmospheric radiation and cloud microphysical processes are critical for understanding the mechanisms of formation and change of Earth’s climate. The radiation process also is a critical component in modern climate models and provides a measurement principle for satellite remote sensing of the Earth, which both are critical tools in climate study. This lecture gives basic knowledge of atmospheric radiation and cloud physics and their role in the Earth’s climate, including their applications to climate modeling and satellite remote sensing.
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35616-1025
GSC-EP6412L2
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地球電磁気学 Geo-electromagnetics
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清水 久芳 SHIMIZU, Hisayoshi |
A1A2 |
火曜1限
Tue 1st |
地球電磁気学の基礎的事項について講義する。地球の電磁気的な性質が、地球の現在の活動と地球誕生後の進化過程に密接に関係していることの理解に重点を置く。 (This lecture gives fundamental issues of ge-electromagnetic methods. It will be emphasized to understand that electromagnetic properties of the Earth (and planets) are strongly related with dynamic processes of the Earth's interior and evolution of the Earth.)
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0528022
FSC-EE3010L1
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地球惑星物理化学 Lecture:Earth and Planetary Physical Chemistry
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小澤 一仁 OZAWA, Kazuhito |
S1S2 |
木曜2限
Thu 2nd |
地球や惑星を構成する物質の基本的な物理化学的状態とその変化を熱力学と反応速度論を基礎として理解することを目標とする。地球惑星環境と地球惑星物質の特徴をふまえながら、幅広い条件下での多成分・多相系のマクロスコーピックな振る舞いを学習する。 This course aims at understanding the basic physicochemical states and their change of materials consisting of the Earth and other planets of our solar system on the basis of thermodynamics and reaction kinetics/rate laws. By inspecting the features of actual earth and planetary materials and their environment, macroscopic behaviors of multicomponent/ multiphase systems under various conditions are explained
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