2635 件ヒット (0.018秒):
Google Classroom Class code: 3lvcp3u
(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
1.Class subject
This class shows imagination for creation and production that human has demonstrated and manufacturing technologies that human has achieved. Knowledge for creation and production of future implements is also given.
2.Object and summary of class
Creation and production are fundamental for manufacturing. What enables creation and production in industry is imagination to come up with new things and manufacturing technologies to produce them. Imagination and manufacturing technologies complement each other. New materials enable new machines, implements, and sensors.
3.Goal of study
The goal of this class is to understand characteristics of manufacturing technologies and to acquire basic knowledge for designing and planning implements.
Google Classroom Class code: 3lvcp3u
(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
1.目的
人類がこれまでに示した創成のための想像力と到達した創成技術を説明し、次の機器創成のための知識を与える。
2.概要
創成とは、物づくりの基本である。工業界においてそれを可能にするのは、新しいものを考え出す想像力とそれを現実に作り出すための新しい創成技術である。両者は互いに補完し合う。新しい素材は新しい機械や機器又はセンサーを可能にする。
3.達成目標等
各種の創成技術の特質を理解し、機器設計および計画のための基礎知識を修得する。
Google Classroomのクラスコード: yu226ha
1.Class subject
This class shows imagination for creation and production that human has demonstrated and manufacturing technologies that human has achieved. Knowledge for creation and production of future implements is also given.
2.Object and summary of class
Creation and production are fundamental for manufacturing. What enables creation and production in industry is imagination to come up with new things and manufacturing technologies to produce them. Imagination and manufacturing technologies complement each other. New materials enable new machines, implements, and sensors.
3.Goal of study
The goal of this class is to understand characteristics of manufacturing technologies and to acquire basic knowledge for designing and planning implements.
The class code of Google Classroom: yu226ha
Google Classroomのクラスコードは工学部Webページにて確認すること。
学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
機械創成学
1.目的
人類がこれまで達成した機械創成技術を説明し、将来の機械創成のための知識を学ぶ。
2.概要
創成とは、物づくりの基本である。工業において創成を可能にするのは、新しいものを考え出す想像力とそれを実際に作り出すための新しい技術である。新しい素材は新しい機械やセンサーを産み出す。
3.達成目標等
1)各種の創成技術の特徴を理解する。
2)工業材料の製造と加工に関するの基礎知識を修得する。
3)物造りの技術の基礎理論を理解する。
4)機械設計工学や精密加工学に発展させる基礎能力を得る。
The class code for Google Classroom can be found on the Web site of
the School of Engineering:
https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)
Manufacturing Engineering and Technology I
1. Purpose
The purpose of this lecture is to explain technologies of creation for machine which a human being has achieved and to lean knowledges for future technologies.
2. Outline
Creation is a basis for manufacturing. The creation in industry becomes possible by the imagination to think new things and the technology to really product them. New materials can generate new machines and sensors.
3. Goals
1)Understand characteristics of different technologies of creation for machine.
2)Lean basic knowledges about processing and machining of engineering materials.
3)Understand basic theories on manufacturing.
4)Obtain basic ability expanding into technologies of machine design and precise machining.
Google Classroomのクラスコードは工学部Webページにて確認すること。
学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
The class code for Google Classroom can be found on the Web site of
the School of Engineering:
https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)
This course will provide concise introduction to the microstructures and processing of materials and how these are related to the properties of engineering materials. In this course, although we mostly deal with metals, properties of other engineering materials will also be discussed.
The goal of this course is understanding of basic properties of materials, of how properties are related to microstructures, of how microstructures are controlled by processing, and of how materials are formed and joined.
Google Classroomのクラスコードは工学研究科Webページ
https://www.eng.tohoku.ac.jp/edu/syllabus-g.html
(大学院シラバス・時間割・履修登録)にて確認すること。
新しい産業の創出を目指した新生産方式、イノベーションと知的財産、人口減少と高齢化のもとでの産業、新規事業開発と産学連携、産業構造変革と技術戦略等について講義する。特に電子デバイス分野において,新たな機能を生み出す新材料技術,材料の持つ特性を最大限発揮する表面制御技術・科学的製造プロセス技術・高性能デバイス技術に関し、最先端の技術、コンセプト、将来展望、市場動向などについて学内外から第一線で活躍する講師陣を招いて講義する。なお本科目は集中講義であり、修士課程対象の「極限表面制御工学」としても同時開講する。
The class code for Google Classroom can be found on the Web site of the School of Engineering:
https://www.eng.tohoku.ac.jp/english/academics/doctoral.html (under "Timetable & Course Description")
This course provides students with lectures on new production methods toward new industry creation, innovation and intellectual property, industry structure and technological strategy in the aging society with population decline. Leading professionals from both academia and industry will cover following topics especially in the electron devices field; state-of-the-art technologies such as advanced surface processing, science-based manufacturing and device technologies, concept and future perspective, market trend and so on. This intensive course will be concurrently held with the "Microscopic Processing of Surfaces" for Master courses students.
Google Classroomのクラスコードは工学部Webページにて確認すること。
学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
本講義では、機械加工や特殊加工を含めた加工プロセスとMEMS(Micro Electro Mechanical System)を中心とした製造技術の基礎知識を習得することを目的としています。
本講義に関する案内はGoogle Classroomにて行う。クラスコードは「sybofgt」である。
The class code for Google Classroom can be confirmed on the Graduate School of Engineering Website.
Timetable & Course Description(https://www.eng.tohoku.ac.jp/english/academics/master.html)
The purpose of this course is to learn fundamental knowledge of manufacturing technologies focusing on mechanical removal processes and MEMS (Micro Electro Mechanical System).
The information of this class will be given via Google Classroom. The class code is "sybofgt".
Google Classroomのクラスコードは工学部Webページにて確認すること。
学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
The class code for Google Classroom can be found on the Web site of
the School of Engineering:
https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)
1.Class subject(目的)
To learn fundamental principles and applied technologies of sensors and measuring instruments for mechanical engineering.
2.Object and summary of class(概要)
A wide area of measurement and instrumentation in the field of mechanical engineering will be covered. At first, basic concepts of measurement and instrumentation such as classification of measurement, standards and units of measurement, etc will be introduced. Then sensors and measuring instruments for displacement, force, displacement, length, velocity, acceleration, quantity of flow, etc., will be explained. Finally, sensor electronics will be presented.
3.Goal of study(達成目標等)
To establish the base of knowledge on measurement and instrumentation for mechanical engineering and to enhance the ability for providing proper solutions to related problems.
[Class code:cflubys ]
Google Classroomのクラスコードは工学研究科Webページ
https://www.eng.tohoku.ac.jp/edu/syllabus-g.html
(大学院シラバス・時間割・履修登録)にて確認すること。
新しい産業の創出を目指した新生産方式、イノベーションと知的財産、人口減少と高齢化のもとでの産業、新規事業開発と産学連携、産業構造変革と技術戦略等について講義する。特に電子デバイス分野において,新たな機能を生み出す新材料技術,材料の持つ特性を最大限発揮する表面制御技術・科学的製造プロセス技術・高性能デバイス技術に関し、最先端の技術、コンセプト、将来展望、市場動向などについて学内外から第一線で活躍する講師陣を招いて講義する。なお本科目は集中講義であり、博士後期学生対象の「極限表面制御工学特論」としても同時開講する。
The class code for Google Classroom can be found on the Web site of the School of Engineering:
https://www.eng.tohoku.ac.jp/english/academics/master.html (under "Timetable & Course Description")
This course provides students with lectures on new production methods toward new industry creation, innovation and intellectual property, industry structure and technological strategy in the aging society with population decline. Leading professionals from both academia and industry will cover following topics especially in the electron devices field; state-of-the-art technologies such as advanced surface processing, science-based manufacturing and device technologies, concept and future perspective, market trend and so on. This intensive course will be concurrently held with the "Advanced Topics on Microscopic Processing of Surfaces" for Doctoral course students.
1. Stars: birthplace of the elements (nucleosynthesis)
origin of the elements, fusion processes, types of stars, abundances of the elements
2. Meteorites and cosmochemical abundances
behavior of the elements, refractory vs volatile elements, the building blocks, ages of meteorites
3. Planetary accretion, differentiation, solar system
Accretion disks, assembling the Earth, planetary comparisons, Moon formation, core formation,
4. Radiogenic isotopes: Rb‐Sr, Sm‐Nd, Lu‐Hf
Basics of geochronology, model ages, crust-mantle fractionation, mantle recycling, lithophile
systems
5. Radiogenic isotopes: Re‐Os, U‐Pb, Hf-W
Core - mantle fractionation, age of core formation, kappa conundrum, litho-sidero-chalcophile
systems
6. Radiogenic isotopes: extinct isotope systems
26Al, 53Mn, 182W, 142Nd, 129I 244Pu and their very different stories – constraining early Earth
processes
7. Radiogenic isotopes: Noble Gases and Stable isotopes
K/U, K-Ar, He/Ne/Ar, Xe isotopes, the He heat flow paradox; Li – recycling and weathering
8. Radiogenic isotopes: cosmogenic and subterranean production
surface dating, ocean water circulation, groundwater dating, calculating neutron fluxes and novel
applications of these data, radiogenic noble gases production
The composition and differentiation of the Earth: BSE, core, modern mantle and crust
9. The Primitive Mantle (BSE)
what do meteorites say? models for making the Earth, layering in the mantle, heat budget for the
Earth (K, Th & U), geoneutrinos and their constraints
10. The Core
Fe + Ni + light element(?), physical description, CMB & ICB temperatures, radiogenic heat, W & Pb
ages, geodynamo
11. The modern mantle
mantle melting, mantle geotherm, layering the mantle, sources of basalts, its domains: products of
early magma oceans or products of recycled slabs, recent news…
12. The Crust
oceanic vs continental, their masses and ages, growth of the continents, what is and isn’t a
continent, heat production and heat flow, the Moho: a poorly understood boundary, mass balances in
the BSE
1. Stars: birthplace of the elements (nucleosynthesis)
origin of the elements, fusion processes, types of stars, abundances of the elements
2. Meteorites and cosmochemical abundances
behavior of the elements, refractory vs volatile elements, the building blocks, ages of meteorites
3. Planetary accretion, differentiation, solar system
Accretion disks, assembling the Earth, planetary comparisons, Moon formation, core formation,
4. Radiogenic isotopes: Rb‐Sr, Sm‐Nd, Lu‐Hf
Basics of geochronology, model ages, crust-mantle fractionation, mantle recycling, lithophile
systems
5. Radiogenic isotopes: Re‐Os, U‐Pb, Hf-W
Core - mantle fractionation, age of core formation, kappa conundrum, litho-sidero-chalcophile
systems
6. Radiogenic isotopes: extinct isotope systems
26Al, 53Mn, 182W, 142Nd, 129I 244Pu and their very different stories – constraining early Earth
processes
7. Radiogenic isotopes: Noble Gases and Stable isotopes
K/U, K-Ar, He/Ne/Ar, Xe isotopes, the He heat flow paradox; Li – recycling and weathering
8. Radiogenic isotopes: cosmogenic and subterranean production
surface dating, ocean water circulation, groundwater dating, calculating neutron fluxes and novel
applications of these data, radiogenic noble gases production
The composition and differentiation of the Earth: BSE, core, modern mantle and crust
9. The Primitive Mantle (BSE)
what do meteorites say? models for making the Earth, layering in the mantle, heat budget for the
Earth (K, Th & U), geoneutrinos and their constraints
10. The Core
Fe + Ni + light element(?), physical description, CMB & ICB temperatures, radiogenic heat, W & Pb
ages, geodynamo
11. The modern mantle
mantle melting, mantle geotherm, layering the mantle, sources of basalts, its domains: products of
early magma oceans or products of recycled slabs, recent news…
12. The Crust
oceanic vs continental, their masses and ages, growth of the continents, what is and isn’t a
continent, heat production and heat flow, the Moho: a poorly understood boundary, mass balances in
the BSE
This class is given by using Google Classroom (class code: nzdrhyv)
Aims: Students will acquire basic knowledge about algorithms and data structures.
Descriptions: Evaluation methods and programming techniques for making good programs are discussed.
Goal: On completing the course, students will have the ability to design and make good programs.