課程
横断型教育プログラム
共通授業科目
学部・研究科
学年
学期
時限
曜日
講義使用言語
実務経験のある教員による
授業科目
授業カタログとは 授業カタログとは
JP EN
課程
横断型教育プログラム
共通授業科目
学部・研究科
学年
学期
時限
曜日
講義使用言語
実務経験のある教員による
授業科目
HOME 検索結果
学内のオンライン授業の情報漏洩防止のため,URLやアカウント、教室の記載は削除しております。
最終更新日:2024年10月18日

授業計画や教室は変更となる可能性があるため、必ずUTASで最新の情報を確認して下さい。
UTASにアクセスできない方は、担当教員または部局教務へお問い合わせ下さい。
国際植物材料学演習 (Seminar in Global Plant Material Science)
詳細を見る MIMA Search
To acquire enough knowledge and the analytical skills to write the Master thesis.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
3910159
GAG-GA6J02T2
国際植物材料学演習 (Seminar in Global Plant Material Science)
各教員
S1 S2 A1 A2
集中
マイリストに追加
マイリストから削除
統合物質科学俯瞰講義II
詳細を見る MIMA Search
広く産学官にわたってグローバルに活躍するために必要な「俯瞰力」を養成することを目指す。物質科学の各分野について最先端の知識を修得し、自分の専門分野と周辺分野がどのように関連するか、あるいはし得るか、について深く考察するために、第一線で活躍する講師の方々にその分野の最前線を概観していただく。さらに、それらの講義を通して異分野間のコミュニケーションを円滑に進めるための具体的方法論を学ぶ。 This survey course is designed to enable students to develop the broad perspective that is required of global leaders working in and across industry, academia, and government. Students will gain knowledge and insight on advancements in each field of materials science research, given by leading researchers working on the frontline in those fields. This will allow students to consider how peripheral fields are related to their own area of expertise, and to consider the potential for forging bridges between related fields in the future. In addition, students will learn specific methodologies designed to facilitate smooth communication among different disciplines.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
3799-204
GEN-CO6z41L1
統合物質科学俯瞰講義II
各教員
S1 S2
木曜6限
マイリストに追加
マイリストから削除
国際植物材料学特別演習 (Advanced Seminar in Global Plant Material Science)
詳細を見る MIMA Search
To acquire enough knowledge and the analytical skills to write the PhD thesis.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
3910224
GAG-GA7905T2
国際植物材料学特別演習 (Advanced Seminar in Global Plant Material Science)
各教員
S1 S2 A1 A2
集中
マイリストに追加
マイリストから削除
The future of text
詳細を見る MIMA Search
Does the written word have a future? Some contemporary trends seem to suggest otherwise: the replacement of the novel first by movies and then video games as leading cultural form; the shift from text to audio and video in messenger apps and on social media platforms; a (related?) loss of concentration and focus; and sinking rates of functional literacy in many developed countries. And just a year after large language models such as ChatGPT arrived on the scene, artificial intelligence is already doing a lot of writing and reading for us. In this seminar we will take these trends not necessarily at face value, but as a starting point to explore the relationship between reading/writing, media and society from interdisciplinary and comparative perspectives. I invited colleagues in literature and psychology, book history and the history of computing to co-teach this seminar together with me. Together we will look at long-term trends related to various textual media, the evolution of technologies from the printing press to social media platforms, and the social contexts of reading and literacy in order to think about past, present, and future trajectories of textuality. <<Learning Goals>> After successfully completing this seminar, participants will be able to - identify and compare different conceptions of text, reading, writing and literacy - understand textuality as a complex social and cultural practice - analyze how textual practices are influenced by social and technological contexts - consider a range of interdisciplinary perspectives from social media studies, anthropology, history and science and technology studies on textuality - apply critical approaches on the relationship between text, media, and society to their own research as well as to reflections on future scenarios
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
21240044
GHS-XX6A01L3
The future of text
FACIUS Michael
S1 S2
水曜3限
マイリストに追加
マイリストから削除
Introduction to Semiconductor Materials
詳細を見る MIMA Search
This lecture will focus on various materials, such as semiconductors, insulators, and metals, for high-performance nano-devices. The operation principles of semiconductor devices such as PN junction and MOS transistors, expected roles of novel device materials for ultra-large scale integrated circuits and power devices, and the fabrication process of such devices will be explained. The introductions of research activities related to nano-materials in Materials Engineering department will be also made. This is an intensive course and will be in English.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
FEN-MA3e23L3
FEN-MA3e23L3
Introduction to Semiconductor Materials
内田 建
A2
集中
マイリストに追加
マイリストから削除
Introduction to Structural Materials
詳細を見る MIMA Search
In production and consumption of materials, structural materials are dominant. Technological development in materials industry affects significant positive impacts in broad end uses. A newly developed high-performance materials fulfill higher design requirement, which makes more advanced product design possible. The first half of this class introduces production process of major materials and life cycle perspective on materials, especially structural materials. We discuss interactions amongst materials, finished products, economy, and environment in order to understand roles of materials in industrial metabolism. Global material flows and resource strategy are also introduced to give you a global vision on resources and materials. The latter half of this class introduces high-temperature materials for jet engine or gas turbine in the power plant. The processing and the necessary properties of high-temperature materials will be introduced to understand how they are designed.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
FEN-MA3e22L3
FEN-MA3e22L3
Introduction to Structural Materials
御手洗 容子
A2
集中
マイリストに追加
マイリストから削除
Application of Biometrics and Biostatistics to Agricultural Science
詳細を見る MIMA Search
Statistics and biometrics have emerged as crucial disciplines not only in agricultural sciences but also in various other fields. This significance is primarily attributed to three factors: Firstly, advancements in data measurement techniques have facilitated the collection of extensive and diverse biological and agronomic data that were previously unattainable. Secondly, the evolution of data science methodologies has enabled the integration and modeling of such collected data. Thirdly, the enhancement of computational capabilities has empowered the utilization of these methodologies. These advancements have rendered statistical and biometric methods indispensable for extracting insights from the vast and varied biological and agronomic datasets. Throughout this lecture series, a diverse array of biological and agronomic datasets will serve as illustrative examples to demonstrate various analytical methods. Delivered in a hands-on format, utilizing R, Python, and Matlab, the aim is to equip students with practical analysis skills. The initial portion of the course, spanning the first one-third, will focus primarily on techniques for summarizing, visualizing, and modeling relationships within multivariate datasets. In the subsequent one-third, students will delve into linear models, linear mixed models, local regression, and nonlinear models. Finally, in the last segment, students will explore image analysis, machine learning, and deep learning methods. While the course will cover a broad spectrum of methods, ranging from introductory to advanced levels, the emphasis will be on developing the capability to independently conduct analyses rather than on elaborating on the theoretical underpinnings of the methods.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
3901165
Application of Biometrics and Biostatistics to Agricultural Science
岩田 洋佳
S1 S2
火曜5限
マイリストに追加
マイリストから削除
光と物質の量子論
詳細を見る MIMA Search
発光現象や光計測・光通信など、我々に身近な光学現象や応用において、光の量子性が様々な形で本質的な役割を担っている。本講義では、光の量子力学性質および物質と光の相互作用の量子力学について学び、身近な現象・応用から最新の光・物質科学に至る広い範囲で重要かつ基礎となる光と物質の量子論の理解を目指す。/Quantum nature of light plays an essential role in various optical phenomena and applications, such as light emission, optical measurement and optical communications. In this lecture, we will learn about the quantum mechanical properties of light and the quantum mechanics of the interaction between matter and light, and the theory of light and matter which is fundamental in a wide range from familiar phenomena and applications to the leading-edge light and material science.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
3747-117
GEN-EE6211L1
光と物質の量子論
岩本 敏
A1 A2
金曜1限
マイリストに追加
マイリストから削除
グローバル教養科目(Technologies of Resistance)
詳細を見る MIMA Search
In this course, we explore the intersection of technology and social resistance, focusing on how underrepresented groups utilize mediums like zines, underground comics, rap music, and internet memes to create communities, challenge oppression, and promote social and political change. Each week we'll look at a different 'technology', understanding its historical context and impact. Topics range from subverting government censorship and control, taboos and subcultures, gender and ethnic minorities, to contemporary uses of underground media. This is primarily a discussion-based course, and students are expected to share their opinions and questions each week in class. Students are expected to prepare by reading assigned texts (or sometimes videos) before class, participate in weekly class discussions, and write a short weekly response paper. Depending on the class size: Once during the semester, each student (possibly in a small group) will lead the class discussion on a subtopic of their choice. There is also a final project, the details of which are to be proposed by the students and accepted by the professor. This course is taught in English and is designed to be accessible by all students with an intermediate English level and above.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
7V0101036-P/F
FGL-GL3136S3
グローバル教養科目(Technologies of Resistance)
SENNA MANUEL
S1 S2
火曜3限
マイリストに追加
マイリストから削除
グローバル教養科目(Technologies of Resistance)
詳細を見る MIMA Search
In this course, we explore the intersection of technology and social resistance, focusing on how underrepresented groups utilize mediums like zines, underground comics, rap music, and internet memes to create communities, challenge oppression, and promote social and political change. Each week we'll look at a different 'technology', understanding its historical context and impact. Topics range from subverting government censorship and control, taboos and subcultures, gender and ethnic minorities, to contemporary uses of underground media. This is primarily a discussion-based course, and students are expected to share their opinions and questions each week in class. Students are expected to prepare by reading assigned texts (or sometimes videos) before class, participate in weekly class discussions, and write a short weekly response paper. Depending on the class size: Once during the semester, each student (possibly in a small group) will lead the class discussion on a subtopic of their choice. There is also a final project, the details of which are to be proposed by the students and accepted by the professor. This course is taught in English and is designed to be accessible by all students with an intermediate English level and above.
時間割コードを開く
時間割コードを閉じる
時間割/共通科目コード
コース名
教員
学期
時限
7V0101036
FGL-GL3136S3
グローバル教養科目(Technologies of Resistance)
SENNA MANUEL
S1 S2
火曜3限
マイリストに追加
マイリストから削除
1 2 3 4 5

1-10 / 全13597件