188BETの出金方法と出金上限金額を徹底解説、銀行振込 ...
<ウェブサイト名>
<現在の時刻>
筑波大学構造エネルギー工学学位プログラム 筑波大学大学院理工生命情報学術院システム情報工学研究群構造エネルギー工学学位プログラムのWEBサイトです 検索 search 日本語 English Homeトップページ About EME概要 Faculty教員一覧 Space-development-engineering-department宇宙開発工学学域 Energy-and-environment-departmentエネルギー・環境学域 Disaster-control-departmentディザスタ制御学域 Multiscale-solid-materials-engineering-departmentマルチスケール固体材料工学学域 Education教育 Admission入試情報 Othersその他 日本語 英語 Home ホーム トップページHome 大型プロジェクトProjects お知らせNews 入試情報Addmission About 概要 概要About EME College学域の紹介 Reference照会先 Experience研究室体験 Association 関連する学会一覧 Faculty 教員一覧 エネルギー・環境学域Energy-and-environment-department ディザスタ制御学域Disaster-control-department マルチスケール固体材料工学学域multiscale-solid-materials-engineering-department 宇宙開発工学学域Space Development Engineering Department Education 教育 教育Education 博士前期課程Master's program 博士後期課程Doctoral course Admission 入試 入試についてAdmission 受験生の方へFor examinees 大学院入試(博士前期課程)の各科目の出題範囲Question range 留学を希望される方へStudy abroad Others その他 会議室予約Meeting room reservation システム情報工学研究群New Interdisciplinary Fields Integrated with Systems, Information and Society 工学システム学類College of Engineering Systems システム情報系Faculty of Engineering, Information and Systems 筑波大学Uneversity of Tsukuba About EME概要 Degree Program in Engineering Mechanics and Energy (EME) Degree Program in Engineering Mechanics and Energy, which help students possess advanced specialized knowledge in engineering areas of machinery, architecture, social infrastructure, energy, aerospace, etc. and also to take a multidisciplinary approach to associated surrounding areas, cultivates researchers and highly specialized professionals capable of proposing their own solution methods for the essential problems that they extract and transmitting their outcomes eff ectively inside and outside Japan. Master’s Program (DP, CP, AP) Degree Master of Engineering Competencies specified in diploma policy 1. Knowledge application competence: Ability to contribute to society with advanced knowledge 2. Management competence: Ability to appropriately address challenges from broad standpoints 3. Communication competence: Ability to accurately and clearly communicate expert knowledge 4. Teamwork competence: Ability to work with a team and actively contribute to the achievement of goals 5. Internationality competence: Willingness to contribute to international society 6. Research ability: Ability to extract problems in the areas of engineering mechanics and energy and propose and carry out solution methods 7. Specialized knowledge: Basic academic abilities, advanced specialized knowledge and command of them in the areas of engineering mechanics and energy 8. Ethical view: Ethical view and ethical knowledge appropriate for highly specialized professionals in the areas of engineering Curriculum policy The curriculum is organized with the objective of fulfilling the Diploma Policy (DP). More specifically, students deeply learn the foundations and leading-edge technologies in engineering areas of machinery, architecture, social infrastructure, energy, aerospace, etc. and also learn widely in multiple areas in science and technology so that the Program can cultivate human resources who have the big picture in mind that an ordinary vertically-sectioning engineering major would not give. Admission policy We seek potential engineers or researchers with the fertile minds to contribute to mankind’s strides, who have an interest in machinery, architecture, social infrastructure, energy, aerospace, and such other engineering areas, based on a bachelor’s degree level of sufficient academic abilities in mathematics, physics and English. Doctoral Program (DP, CP, AP) Degree Doctor of Philosophy in Engineering Competencies specified in diploma policy 1. Knowledge creation competence: Ability to create new knowledge that can contribute to future society 2. Management competence: Ability to plan and implement measures to identify and solve challenges from a higher perspective 3. Communication competence: Ability to express the true nature of academic findings positively and clearly 4. Leadership competence: Ability to have objectives get accomplished under your leadership 5. Internationality competence: Possession of a high level of awareness and motivation to be internationally active and contribute to international society 6. Research ability: Ability to extract leading-edge problems in the areas of engineering mechanics and energy and propose and carry out solution methods 7. Specialized knowledge: Basic academic abilities, leading-edge advanced specialized knowledge and command of them in the areas of engineering mechanics and energy 8. Ethical view: Ethical view and ethical knowledge appropriate for highly specialized professionals in the areas of engineering Curriculum policy The curriculum is organized with the objective of fulfilling the Diploma Policy (DP). More specifically, students deeply learn the foundations and leading-edge technologies in engineering areas of machinery, architecture, social infrastructure, energy, aerospace, etc. and also learn widely in multiple areas in science and technology so that the Program can cultivate human resources who have the big picture in mind that an ordinary vertically-sectioning engineering major would not give. Admission Policy We seek potential engineers or researchers with the fertile minds to contribute to mankind’s strides and with the goal to actively take the lead in relevant areas, who have a master’s degree or have the prospect of earning it, possess the sufficient academic abilities in the areas associated with engineering mechanics and energy, and have an interest in machinery, architecture, social infrastructure, energy, aerospace, and such other engineering areas. Outlines of the Degree Program in Engineering Mechanics and Energy (EME) The Degree Program in EME is orientated at general engineering education and research grounded in mechanics, which namely covers a broad range of conventional engineering fields of mechanical engineering, architecture and building engineering, engineering for disaster mitigation, civil engineering, aeronautical engineering, nuclear engineering, electrical engineering, environmental engineering, and energy engineering, etc. Amongst the research targets: aircrafts, rocket engines, space structures and vehicles, seismological disaster mitigation, building structures, land and water (river, coast, lake, and ground) environments, energy generation systems (thermal, nuclear, MHD, and renewable), using advanced mechatronics and metrology, physical modeling of natural phenomena using computer simulations, and industrial design and fabrication. The Degree Program in EME adopts the independent researcher structure instead of the traditional lectureship-based faculty structure. Faculty members belong to the different research groups of space development engineering, energy and environmental engineering, disaster control, and multi-scale solid materials engineering, where they are encouraged to collaborate closely with each other. As for education, lecture courses are designed to offer graduate students an interdisciplinary education across the various areas of solid and structures, power and energy, and fluids and environment. Additionally, a “Daigakuin/Graduate Seminar” course (mandatory) is set up to provide students from different laboratories with an opportunity to present their research achievements and understand and appreciate each other’s research. Educational purpose Degree Program in Engineering Mechanics and Energy, which help students possess advanced specialized knowledge in engineering areas of machinery, architecture, social infrastructure, energy, aerospace, etc. and also to take a multidisciplinary approach to associated surrounding areas, cultivates researchers and highly specialized professionals capable of proposing their own solution methods for the essential problems that they extract and transmitting their outcomes effectively inside and outside Japan. Career path after graduation