3081 件ヒット (0.034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)
In this course, various topics on aerospace engineering will be presented as the basic knowledge that students of the aerospace course must acquire to fulfill the requirements for graduation from the undergraduate aerospace engineering program. Introductory lectures on the research fields conducted by each faculty member of the course will be given.
This course is aimed at those who want to master basic knowledge on aerospace engineering, including aircraft design, aerodynamics (experimental and computational), structure and material, propulsion, space exploration, space robotics, information science and technology, and so on.
Title: Introduction to Aerospace Engineering (IMAC-U)
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)
Please check the following site for class code.
(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)
1.Class subject
NUMERICAL ANALYSIS is intended to be an advanced study of linear algebra and numerical analysis.
2.Object and summary of class
To obtain the knowledge of advanced level of linear algebra is the object of the class.
Moreover, to understand the concepts and develop relevant calculation abilities is the object.
Applications to several engineering issues are included.
3.Goal of study
To master the application of linear algebra and numerical analysis is the goal of study.
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。
機械構造の設計の基礎となる構造物の力学理論について講義を行う.構造力学の基礎的な考え方と方法を学び,構造物の力学解析手法および構造設計能力を養う.各構造要素における構造様式および材料の特徴について学ぶとともに,薄肉構造の応力解析法,変形・座屈解析法を取得する.さらに,航空宇宙機の構造解析・構造設計の考え方と方法を学ぶ.1.機械構造・材料の基礎,2.構造物の振動解析,3.機械構造の作用荷重と応力解析,4.構造同定と構造ヘルスモニタリング,5.航空宇宙機の構造力学
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 lecture gives a fundamental knowledge on the structural analysis and the structural design of mechanical structures. Main topics of this lecture are deformation and stress analyses of fuselage and wing structures subjected to bending, twisting and shear. (1) Fundamental of mechanical structure and material strength. (2) Vibration analysis for structures. (3) Applied load and stress analysis of mechanical structures. (4) Structural identification and structural health monitoring (5) Structural mechanics for aerospace engineering.
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
航空機および宇宙機の設計・製造および運用の経験者による講義にて航空宇宙機関連の総合的知識を得る.
2. 概要
講義は集中講義形式で行い,半分は航空機の飛行力学基礎および開発・設計の現場における空力・構造設計の実学を示す.半分は宇宙機の航行力学基礎および開発・設計の現場における宇宙機設計の実学を示す.
3. 達成目標等
この授業では,主に以下のような能力を修得することができる.
・航空機の開発における基礎および最新の状況を説明できる.
・宇宙機の開発における基礎および最新の状況を説明できる.
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. Objective
To provide comprehensive knowledge of aerospace aircraft through lectures by persons experienced in aircraft and spacecraft design, manufacture, and operation.
2. Outline
Half of the lectures will cover the fundamentals of flight dynamics of aircraft and practical aerodynamics and structural design in the development and design field. Another half of the lectures will cover the fundamentals of spacecraft flight dynamics and practical aerodynamics and structural design in the field of spacecraft development and design. 3.
3. Goal
In this course, students can acquire the following abilities.
To explain the fundamentals and the latest situation of aircraft development.
To explain the fundamentals and the latest situation of spacecraft development.
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。
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 extensive advanced lectures on space flight systems, particularly the issues not covered by Advanced Space Systems I:
・The scope of the course is the design, development, launch and operation of space flight systems for Earth-orbiting missions and/or interplanetary missions.
・Depending on the availability of the lecturers, a specific focus will be made on the topics from propulsion systems, space structures, orbital mechanics, attitude dynamics and control, and space robotics.
・Invited international lectures may be arranged.
・All lectures are given in English.
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)
<講義の目的>:人工衛星,宇宙ステーション,宇宙探査機などの宇宙システムを設計,開発,運用するために必要な科学技術の基礎事項を学ぶ.
<概要>:まず,宇宙開発の歴史,宇宙環境,宇宙利用,宇宙システムの概要を述べたうち,人工衛星を軌道に投入するためのロケットの誘導,制御について述べる.つぎに,人工衛星の軌道運動,姿勢運動,およびその制御について,基礎を講義する.
<達成目標等>:全体として,宇宙工学の基礎を学ぶ.深い詳細内容までは踏み込まず,幅広い内容学習を目指す.「宇宙へ行く」ための科学技術の概要を理解する.ツィオルコフスキーの式,ケプラー軌道を学び,人工衛星の軌道運動の基礎を理解する.さらに,ランデブ・ドッキング,衛星の姿勢安定,惑星間飛行などを学び,宇宙活動の力学について理解を深める.最後に,カルマンフィルタとGPSを利用した宇宙における計測法について学ぶ.
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)
<Objectives>:
We aim to learn the fundamental knowledge of space technology for designing, developing and operating space systems, such as artificial satellites, space stations, and spacecraft.
<Summary>:
We first mention the overview and history of space development, and learn orbital dynamics, space infrastructures, transport systems and flexible space structures. Then, we learn the basic knowledge of space navigation using Kalman filter and GPS, and attitude control of satellites.
<Goal of study>:
We learn the fundament of space engineering through the whole class. We learn the overview of science technologies for “travelling space”, to cover a wide range of study contents, without going into depth of details. We first understand orbital dynamics including Hohmann transfer and Rendezvous trajectory. Next, we understand space infrastructures, space transport systems, and flexible space structures. We then learn the basic knowledge of space navigation using Kalman filter and GPS. Lastly, we develop a better understanding of the attitude control of artificial satellites.
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
様々な圧縮性流れ現象の理解に不可欠な基礎学力の習得を目的とする.
2.概要
理想気体を仮定して,等エントロピー流れ,垂直衝撃波流れ,斜め衝撃波流れ,角をまわる超音速流れやノズル流れなど,空気力学の基礎を講義する.
3.達成目標等
等エントロピー関係式,衝撃波関係式など基本的な関係式を習熟する.
圧縮性流れ現象の特徴を理解する.
The class code for Google Classroom can be found on the Web site of
the School of Engineering:
https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)
1. Aim
The aim is to acquire basic academic skills essential for understanding various compressible flow phenomena.
2. Overview
Under the assumption of a perfect gas, the basic theories of governing equations for compressible flows, isentropic flows, normal shock waves, oblique shock waves, Prandtl-Meyer expansion waves, and nozzle flows are given in the lectures. Detailed derivations of the governing equations, isentropic flow relations, and normal/oblique shock relations are also given.
3. Achievement target
Master basic relational expressions such as isentropic relations and shock wave relations.
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。
数値解析学では、数値解析のために必要な基礎とその応用例が担当教員から講義されます。
今年度は、槙原教授ならびに山本(悟)教授の2名が担当します。
詳細はClassroomを参照すること
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 lecture gives an advanced knowledge on the numerical analysis methods that are the basis of analysis such as fluid mechanics, thermodynamics, strength of materials, and measurement control engineering. Main topics of this lecture are application of numerical analysis.
This year, Professor Kanjuro MAKIHARA and Professor Satoru YAMAMOTO will be in charge.
See Classroom for details.
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.Class subject(目的)
To acquire fundamental knowledge regarding dynamic problems which may arise in machinery.
2. Object and summary of class(概要)
To learn dynamic characteristics of the systems with one, two, and multi degrees of freedom obtained by modeling machinery.
3. Goal of the study(達成目標等)
To acquire the ability to apply the knowledge obtained in this class to engineering design.
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
To acquire fundamental knowledge regarding dynamic problems which may arise in machinery.
2. Object and summary of class
To learn dynamic characteristics of the systems with one, two, and multi degrees of freedom obtained by modeling machinery.
3. Goal of the study
To acquire the ability to apply the knowledge obtained in this class to engineering design.
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)