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FISIKA TEKNIK (engineering physics) Fakultas Teknologi Industri Institut Teknologi Bandung 20091 0 bidang keilmuan.

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Presentasi berjudul: "FISIKA TEKNIK (engineering physics) Fakultas Teknologi Industri Institut Teknologi Bandung 20091 0 bidang keilmuan."— Transcript presentasi:

1 FISIKA TEKNIK (engineering physics) Fakultas Teknologi Industri Institut Teknologi Bandung bidang keilmuan

2 TOPIK BAHASAN 1. Bidang Keilmuan (Body of Knowledge) 2. Akademik & Kurikulum 3. Sumber Daya, Mahasiswa & Alumni 1

3 ENGINEERING PHYSICS 2 Fisika TeknikTeknik Fisika

4 3 What is Engineering Physics ? ENGINEERING DEGREES WITH A FOCUS ON PHYSICS, ENGINEERING SCIENCES AND MATHEMATICS ENGINEERING PHYSICS PROGRAM

5 4 What is Engineering Physics ? Engineering Physics is primarily for the student with a strong interest in and aptitude for engineering science and mathematics and the desire to apply these disciplines to technical problems without regard to formal or historical boundaries between various fields of engineering and physics. Mathematics, Physics & Engineering Sciences ? ? ? ? ? ? ?

6 ENGINEERING PHYSICS EDUCATION 5 Engineering Physics Education aims to produce Sarjana Teknik with strength in basic science especially in Physics and Mathematics as well as Engineering Science, therefore the graduates are capable :  to move across the border lines of basic sciences and engineering science or, engineering science and applied engineering  to take roles in the development of physics based technology  to bridge new concept in physics and its application that makes R&D process becomes more efficient  to accelerate the cultivation of new technology for which engineering science often labeled as frontier engineering This background prepares students for careers in engineering, applied science or applied physics with positions in industry, national research laboratories, universities or even as technological entrepreneurs.

7 Knowledge Area for Engineering Physics Basic Science Engineering Physics INDUSTRY Knowledge creation Technology Development/Application Technology creation Feedback from industry Applied Engineering Science 6 Stream of Technology Development

8 Engineering Physics : Field of Study 7 Instrumentation & Control Acoustics Engineering Nuclear Engineering Built Environment Material Science & Engineering Optics and Laser Building Physics Lighting Engineering Engineering Physics Biomedical Engineering Energy System & Management Nano Science & Engineering Optoelectronics  Non Conventional Engineering Education  General Engineering (ref. : ABET criteria)  Different Focus Area

9 Engineering Physics : Field of Study 8 TF-ITB TF-ITS TF-UGM TF-UNAS Instrumentation & Control Building Physics and Acoustics Computational and Process Materials Optics and Laser Instrumentation Engineering Building Physics and Acoustics Engineering Material Engineering Energy and Environmental Engineering Optics and Laser Nuclear Engineering Engineering Physics Instrumentation Engineering Building Physics Environmental Engineering knowledge improvement concept development modeling technology creation industrial application Engineering Physics in Indonesia TF- ITT

10 Engineering Physics : Field of Study  Mc Master University – Canada Photonics, Micro-electro-mechanical systems (MEMS) Mechatronics, Nano-system engineering Nuclear engineering, Sustainable energy systems Optoelectronics, Semiconductor devices, Biophotonics  Cornell University – USA Nanoscience & Nanobiotechnology Condensed Matter Physics and Materials Science Optical Physics, Quantum Electronics and Photonics Biophysics, Astrophysics and Plasma Physics, Atomic, Molecular and Chemical Physics  Princeton University – USA Energy, environment, materials, microelectronics and photonics  Tsing Hua University Nuclear Engineering 9 Engineering Physics in the world

11 ENGINEERING PHYSICS Institut Teknologi Bandung 10

12 ENGINEERING PHYSICS ITB : Historical Background 11 External Demands global and domestic issues graduate’s knowledge and competence requirement EP - ITB ‘70s ‘50s Internal Development ‘80s ‘90s 2000 ‘60s Global : post industrial revolution era Indonesia : early independence era with rapid development in infrastructure including buildings and housing industries Global : energy issues with nuclear fusion as one of energy alternatives Indonesia : early industrial development in oil and gas industries Global : digital and information technology Indonesia : rapid manufacturing industrial development in various areas including aviation Global : Global job market and knowledge based economy Indonesia : economic crisis. Set back in industrial development and lagging in technology advancement Engineering : expertise in building design, construction and utility Engineering science : building physics, indoor and outdoor tropical climate as well as human comfort Engineering : expertise in process, oil & gas industries Engineering science : industrial instrumentation, nuclear engineering Engineering : expertise in electronics and digital technology & communication Engineering science : instrumentation and control, room acoustics and noise control, medical instrumentation, optics Engineering : advance information and communication based technology. Engineering science : interdisciplinary knowledge with in-depth comprehension in engineering science Body of Knowledge : Physics and Mathematics Building Physics Thermal Environ Eng. Measurement and Calibration Body of Knowledge : Industrial Instrument. Building Physics Thermal Science Material Science Nuclear Science & Engineering Body of Knowledge : Instrument. and control Building Physics and Acoustics Thermal Environ. Eng. Material Science Nuclear Science & Eng. Body of Knowledge : Instrument., control & automation Building Physics Indoor & Outdoor Lighting Acoustics & Noise Control Energy Utilization & Conservation Computational & Process Material

13 External Demands global and domestic issues graduate’s knowledge and competence requirement EP - ITB Internal Development 2000 NOW Global : Global job market and knowledge based economy, global warming and energy crisis. Indonesia : democratic era, food & energy security, safety – health – environment issues Engineering : advance information and communication based technology, renewable energy Engineering science : interdisciplinary knowledge with in-depth comprehension in engineering science Body of Knowledge : Instrument., control and automation Built Environment Safety, Health & Environment Tech Acoustics & Noise Control Energy Utilization & Conservation Computational & Process for new functional Material ENGINEERING PHYSICS ITB : Historical Background 12

14 ENGINEERING PHYSICS ITB : timeline 13 Pendidikan sarjana Fisika Teknik berdiri tahun 1950, atas prakarsa ketua Fakulteit Teknik Universitas Indonesia Prof. Dr. Ir A. Nawijn seorang ahli Fisika Teknik (natuurkundig ingeniur) dan Ir. M.U. Adhiwijogo (sarjana Teknik Sipil) dengan nama Natuurkundig Ingeniur Afdeling.

15 ENGINEERING PHYSICS ITB : timeline 14 Pada tahun 1959 pendidikan Fisika Teknik diberi nama Bagian Fisika Teknik yang tergabung dalam Departemen Fisika/ Fisika Teknik, dengan ketua Prof Ir. M.U. Adhiwijogo. Prof. M. U. Adhiwijogo (Go Pok Oen) (1910 – 1974) Pelopor bidang Fisika Bangunan di Indonesia Pendidikan : 1935 Sarjana Teknik Sipil ITB Pekerjaan : 1950 Mendirikan Fisika Teknik ITB 1950/1965 Ketua Jurusan/Bagian Fisika Teknik ITB 1957 Guru Besar Fisika Teknik ITB 1970 Pendiri Lembaga Instrumentasi Nasional (LIN) LIPI

16 ENGINEERING PHYSICS ITB : timeline 15 Pada tahun 1963, Bagian Fisika Teknik menjadi bagian dari Departemen Fisika Teknik dan Teknologi Kimia.

17 ENGINEERING PHYSICS ITB : timeline 16 Pada tahun 1972, Bagian Fisika Teknik menjadi Departemen Fisika Teknik, salah satu departemen di bawah Fakultas Teknologi Industri. Pada tahun 1983, Departemen Fisika Teknik berubah nama menjadi Jurusan Teknik Fisika.

18 ENGINEERING PHYSICS ITB : timeline 17 Pada tahun 1990, dibuka program studi Magister (S2) Instrumentasi dan Kontrol dibawah pengelolaan Departemen Teknik Fisika ITB.

19 ENGINEERING PHYSICS ITB : timeline 18 Pada tahun 2001, nama Jurusan Teknik Fisika berubah menjadi Departemen Teknik Fisika.  Program Studi Teknik Fisika diselenggarakan oleh Departemen Teknik Fisika dengan kurikulum nasional yang ditetapkan oleh Menteri Pendidikan dan Kebudayaan1995.

20 ENGINEERING PHYSICS ITB : timeline 19 Pada tahun 2003 dibuka Magister (S2) Teknik Fisika, yang memiliki opsi keahlian  Otomasi Proses Industri  Fisika Bangunan  Disain Tata Cahaya  Komputasi dan Proses Material Pada tahun ini juga dibuka program Doktor (S3) Teknik Fisika  Pada tahun 2006, perubahan organisasi ITB dengan unit terkecil adalah fakultas, dimana program studi Teknik Fisika (S1, S2 & S3) serta program studi Instrumentasi & Kontrol (S2) langsung di bawah Fakultas Teknologi Industri

21 20 ENGINEERING PHYSICS ITB : 2006 : Program Studi Teknik Fisika berada di dalam Fakultas Teknologi Industri Institut Teknologi Bandung Faculty / School Faculty of Industrial Technology Chemical Engineering Engineering Physics Industrial Engineering Other Study Programs Research Group A… Instrumentation & Control Research Group Other Research Group Research Group B… Study Program Research Group

22 FIELD OF STUDY 21 Instrumentation & Control Built Environment & Energy System Material Science & Engineering

23 INSTRUMENTATION & CONTROL  Instrumentation is a science and engineering deals with a system used for detecting, measuring, monitoring and controlling the quantities or physical properties thus including identifying, optimizing and the like.  Control engineering is the engineering discipline that focuses on mathematical modeling of systems of a diverse nature, analyzing their dynamic behavior, and using control theory to create a controller that will cause the systems to behave in a desired manner 22 Instrumentation & Control Industrial & medical applications

24 INSTRUMENTATION & CONTROL 23 Physical Phenomena Measurement & Data Acquisition Systems Data Processing & Computation Numerical Data ImagesGraphics  Identification  Modeling & Simulation  Optimization  Control INFORMATION Actuator

25 INSTRUMENTATION & CONTROL 24

26 INSTRUMENTATION & CONTROL 25 Ex. : Industrial Instrumentation System Ultrasonic Flowmeter

27 INSTRUMENTATION & CONTROL 26 Ex. : Medical Instrumentation Ultrasonography

28 27

29 INSTRUMENTATION & CONTROL 28 Ex. : Optical Instrumentation Optical based sensors and measuring system Image processing using optical devices Development of 3 D surface profile measurement technique

30 BUILT ENVIRONMENT AND ENERGY SYSTEM 29

31 BUILT ENVIRONMENT & ENERGY SYSTEM  Built Environment is a Science and Engineering deal with multi modes physical phenomena (physical properties such as thermal, acoustic and lighting) for human comfort and industrial application  Energy System is a science and engineering deal with a system used for energy generation, supplying, distribution and conservation in a building and industries 30 Built Environment Energy System

32 BUILT ENVIRONMENT & ENERGY SYSTEM 31 ACOUSTICS Acoustics Computational & Modeling Noise Control Physiological & Psychological Acoustics ArchitecturalAcoustics silence unvoiced voiced Acoustic Signal Processing Music & Sound System

33 BUILT ENVIRONMENT & ENERGY SYSTEM 32 ArchitecturalAcoustics SOUND PERCEPTION SOUND WAVE PHENOMENA DESIGN CRITERIA SPEECH INTELLIGIBILITY RECORDING & BROADCASTING STUDIO SOUND REINFORCEMENT Green Building & Energy Conservation

34 MATERIAL SCIENCE AND ENGINEERING 33

35 MATERIAL SCIENCE & ENGINEERING  Material Science and Engineering deal with physical properties and phenomena for developing, designing, processing and constructing a new functional material 34 Material Design and Computation Material Processing Ceramic Material Magnetic Material Composite Material Nanotechnology, etc

36 35 Metallurgy  Metal Material  Solar cell CdS  Fuel cell Carbon Porous  Moleculer Dynamics  Magnetism & Magnetic material’s  Fine Ceramic (PZT base material’s)  Thin film processing  Crystal Growing MATERIAL SCIENCE & ENGINEERING

37 36  Computational Materials : Simulation in Molecule Dynamics  Prosess Material  Fine Ceramic (zirconia base materials)  Bahan sensor (sensor gas)  Magnetic substabce  Computational Materials : Simulation in Molecule Dynamics  Prosess Material  Fine Ceramic (zirconia base materials)  Bahan sensor (sensor gas)  Magnetic substabce During the next 10 years Excellence Research Topic Simulation on molecule dynamics and production process of nano-clay- polymer composite During the next 10 years Excellence Research Topic Simulation on molecule dynamics and production process of nano-clay- polymer composite MATERIAL SCIENCE & ENGINEERING


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