972 件ヒット (0.035秒):
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
Various functions of materials are dominated by the arrangement of atoms in the material. From the viewpoint of atomic bonding and microstructure, mechanisms underlying materials' physical and chemical properties are explained. This lecture will cover the design of atomic arrangement and fabrication methods for structural materials and functional materials such as electronic, optical, and energy-conversion materials. Various techniques used to characterize materials at the nanoscale are also explained.
2. Object and summary of class
This course is intended as an introductory course in the functional design of materials offered to engineering students. It concentrates on developing analysis techniques from the principle for a range of practical materials that include steel materials, semiconductor materials, optical fiber, oxides used for fuel cells, and so on.
3. Goal of study
The goal of this course is the acquisition of the basic concept of the atomic-scale design of materials and the quantitative analytical method of the atomic alignment in various structures.
固体の性質は主に電子構造により支配されている。
本講義では、結晶構造を形成する原子間結合や、電気伝導性に代表される電気的性質に関して、電子構造に基づいて理解することを目指す。
Properties of solid are mainly dominated by an electronic structure of material. In this class, we will learn how to understand the atomic bonds, which form a crystal structure, and electric properties such as electrical conductivity of materials based on the electronic structure.
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)
1.目的
現代社会で用いられている固体材料における様々な機能の発現メカニズムについて学び,その機能を発現,安定化,向上させる材料組成・組織制御技術に関する知識を得る.
2.概要
原子結合や組成,微細組織の制御に基づく材料機能の発現メカニズムを学び,構造材料,電子材料,光学材料,磁性材料,エネルギー変換材料,等の機能支配因子について論ずる.また,材料機能に深く関連する結晶構造,材料組成,微細組織等の観察・測定方法について学ぶ.
3.達成目標等
材料の各種機能の発現メカニズム,および,社会で使用されている各種機能材料に関する基礎知識を習得する.
Google Classroom のコード: snstfz4
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. Object
This lecture offers an opportunity to understand the origins of various physical and chemical functions of materials, which are necessary for the development of devices and equipment. The lecture will also focus on how to control and optimize the material functions for practical applications.
2. Summary
This lecture will discuss the relationship between atomic bonding/alignment in materials and various properties such as mechanical, thermal, electronic, optical, ionic, magnetic, and electrochemical properties. The operating principles of characterization techniques of morphology, structure, crystal structure, elemental composition, which are closely related to material functions, will be also lectured.
3. Goal
Students will understand the basic concepts of material functions and how to control them for practical applications.
Google Classroom Code: snstfz4
Google Classroom class code: vemxeyz
(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
The class code of this course in Google Classroom system is "vemxeyz" in the academic year of 2024 .
1. Class subject
Mechanics of materials is a branch of applied mechanics that deals with the basic behavior of solid bodies subjected to various types of loading. The knowledge of the stress and strain set up within the bodies and resulting deflection is a prerequisite for the structural design of industrial products and infrastructures such as buildings, roads, bridges, and various equipments. In this course, the basic idea of the structural design is provide based on the quantitative evaluation of mechanical stress and strain fields in various structures.
2. Object and summary of class
This course is intended as an introductory course in the mechanics of solids offered to engineering students. It concentrates on developing analysis techniques from principle for a range of practical problems that include simple structures, pressure vessels, beams and shafts.
3. Goal of study
The goal of this course is the acquisition of the basic concept of stress and strain in material s and structures and the quantitative analytical method of stress and strain fields in various structures.
Chemistry includes the fundamental analysis of atoms and molecules, which make up the world around us. By understanding the basics of atomic structure, reactivity and the formation of molecules, it is possible to create new substances with uses in advanced applications including medicine, energy, materials, environmental quality and others. The goal of this class will be to become familiar with the basics of chemistry, understand what atoms are composed of and their structure, learn about compounds, how to study these materials, and how they may be used to improve quality of human life.
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)
1.目的
現代社会で用いられている固体材料における様々な機能の発現メカニズムについて学び,その機能を発現,安定化,向上させる材料組成・組織制御技術に関する知識を得る.
2.概要
原子結合や組成,微細組織の制御に基づく材料機能の発現メカニズムを学び,構造材料,電子材料,光学材料,磁性材料,エネルギー変換材料,等の機能支配因子について論ずる.また,材料機能に深く関連する結晶構造,材料組成,微細組織等の観察・測定方法について学ぶ.
3.達成目標等
材料の各種機能の発現メカニズム,および,社会で使用されている各種機能材料に関する基礎知識を習得する.
4.本講義は,Google Classroomを利用する場合がある.その場合のクラスコードは「d7o7nce」である.
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)
1. Object
This lecture offers an opportunity to understand the origins of various physical and chemical functions of materials, which are necessary for the development of devices and equipment. The lecture will also focus on how to control and optimize the material functions for practical applications.
2. Summary
This lecture will discuss the relationship between atomic bonding/alignment in materials and various properties such as mechanical, thermal, electronic, optical, ionic, magnetic, and electrochemical properties. The operating principles of characterization techniques of morphology, structure, crystal structure, elemental composition, which are closely related to material functions, will be also lectured.
3. Goal
Students will understand the basic concepts of material functions and how to control them for practical applications.
4. Other
This lecture may be held with Google Classroom (class code : d7o7nce).
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)
1.目的
現代社会で用いられている構造材料,各種機能性材料を設計するために必要とされる,様々な機能の発現メカニズムとその機能を発現させる材料製造技術あるいは機能を安定化させる制御技術について学ぶ.
2.概要
原子結合や微細組織の制御に基づく材料機能の発現メカニズムを学び,構造材料の強度物性の発現メカニズムと微細組織制御に主眼をおいた材料強度向上技術,あるいは電子材料・光学材料,エネルギー変換材料等の機能支配因子や機能発現に必須の加工・製造方法,最後に結晶構造や材料組成,微細組織等の観察・測定方法について学ぶ.
3.達成目標等
各種材料に所望の機能や性能を付与するための基本知識を習得するとともに,社会で使用されている各種材料に対する基礎知識を習得する.
4.その他
本講義は,Google Classroomを利用する場合がある.その場合のクラスコードは「oembw2z」である.
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)
1. Object
This lecture offers an opportunity to understand the origins of various physical and chemical functions of materials, which are necessary for the development of devices and equipment. The lecture will also focus on how to control and optimize the material functions for practical applications.
2. Summary
This lecture will discuss the relationship between atomic bonding/alignment in materials and various properties such as mechanical, thermal, electronic, optical, ionic, magnetic, and electrochemical properties. The operating principles of characterization techniques of morphology, structure, crystal structure, elemental composition, which are closely related to material functions, will be also lectured.
3. Goal
Students will understand the basic concepts of material functions and how to control them for practical applications.
4. Other
This lecture may be held with Google Classroom (class code: oembw2z).
This course builds from the basic electronic structure of atoms and molecules to bonding in compounds to structure and finally to the relationship between the structure and properties of compounds.It is my aim that students will develop tools needed to predict the properties from the electronic and physical structures of relatively simple compounds.
This course builds from the basic electronic structure of atoms and molecules to bonding in compounds to structure and finally to the relationship between the structure and properties of compounds.It is my aim that students will develop tools needed to predict the properties from the electronic and physical structures of relatively simple compounds.
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)
[2023年度講義の情報] 本講義に関してはGoogle Classroomのクラスコード ww7xgxv でお知らせします。上手く接続できない場合などは高橋英志教授(hideyuki.takahashi.c2@tohoku.ac.jp)までメール連絡を下さい。メール送信後数日以内に高橋より返事が無い場合は、届いていないことを意味しますので、再送等をお願いいたします。
目的:
本講義では,電子エネルギー材料、化学エネルギー材料、再生可能エネルギー利用技術について概説し、それらエネルギー材料を支える材料プロセスおよびエネルギ材料を用いたデバイス応用について理解することを目的とする。
概要:
本講義は、総論、電子エネルギー材料、化学エネルギー材料および再生可能エネルギー利用技術から構成されるオムニバス形式の講義である。総論では、エネルギー材料の基礎となる熱力学の法則などについて概説する。電子エネルギー材料では、太陽電池や熱電変換材料について、化学エネルギー材料では、水素製造・貯蔵用材料 + 二次電池材料、光触媒や燃料電池材料について基礎から応用まで学習する。再生可能エネルギー利用技術では、バイオマスを取り上げ、その種類やエネルギー源としての利用について学習する。
達成方法:
各講義を受講することに加え、講義に関連する内容について、さらに小テストあるいはレポートが課される。これらに取り組むことによって、エネルギー材料科学に関する知識を身につけ、自らエネルギー材料に関する課題を設定する力を養う。
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)
[2023 class information] Please contact to Google Classroom ww7xgxv if you join to this class. If you cannot access to this classroom, please send e-mail to Prof. Takahashi (hideyuki.takahashi.c2@tohoku.ac.jp) .
This course provides overview of materials science for energy, electronic materials for energy, materials for energy through chemical reactions, and utilization of renewable energy including their material processes and device applications.
Students learn materials science for energy through an omnibus style course. In the overview, fundamental thermodynamics and some device application for energy are lectured. Solar cells and thermoelectric materials are lectured in the electronic materials for energy. Materials for hydrogen generation/storage, secondary batteries, photocatalysts and fuel cells are lectured in the materials for energy through chemical reactions. Finally, biomass is lectured in the utilization of renewable energy.