Undergraduate FAKULTAS TEKNOLOGI INDUSTRI FACULTY OF INDUSTRIAL TECHNOLOGY Program Studi Department JURUSAN TEKNIK MESIN Mechanical Engineering Department Jenjang Pendidikan Programme PROGRAM SARJANA Undergraduate Program Kompetensi Lulusan Menguasai dasar-dasar keilmuan teknik mesin sehingga mampu berpikir , bertindak dan berkomunikasi sesuai kaidah keilmuan dan jamannya, serta mampu mengembangkan potensi dirinya secara berkelanjutan . Memiliki pengetahuan dan ketrampilan di bidang teknologi energi, teknik perancangan, teknik manufaktur dan metalurgi serta mampu menerapkannya dalam kegiatan (produktif) operasional produksi , perancangan , penelitian dan pengembangan di industri secara kreatif, dengan memperhatikan kebutuhan masyarakat, tata nilai dan lingkungan. Memiliki wawasan yang memadai terhadap dunia kerja (profesi) dan mampu mengikuti serta mengembangkan bidang keahliannya secara keilmuan dan atau professional dalam konteks peningkatan harkat manusia dan dalam masyarakat global. Graduate Competence Mastering in Mechanical Engineering basic sciences that leads to the ability of thinking, taking action, and communication in line with the era, and having ability to develop continuously their potential. Having knowledge and skill in the fields of energy technology, design engineering, manufacturing engineering, and metallurgy. Also, the students are having the ability to apply their knowledge in the activites of productive operation, design, research, and to develop creatively their knowledge in industries inline with society needs, moral, and environment.
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UndergraduateFAKULTAS TEKNOLOGI INDUSTRI FACULTY OF INDUSTRIAL TECHNOLOGY Program Studi Department JURUSAN TEKNIK MESIN Mechanical Engineering Department
Jenjang Pendidikan Programme PROGRAM SARJANA Undergraduate Program
Kompetensi Lulusan Menguasai dasar-dasar keilmuan teknik mesin sehingga mampu berpikir, bertindak dan berkomunikasi sesuai kaidah keilmuan dan jamannya, serta mampu mengembangkan potensi dirinya secara berkelanjutan. Memiliki pengetahuan dan ketrampilan di bidang teknologi energi, teknik perancangan, teknik manufaktur dan metalurgi serta mampu menerapkannya dalam kegiatan (produktif) operasional produksi, perancangan, penelitian dan pengembangan di industri secara kreatif, dengan memperhatikan kebutuhan masyarakat, tata nilai dan lingkungan. Memiliki wawasan yang memadai terhadap dunia kerja (profesi) dan mampu mengikuti serta mengembangkan bidang keahliannya secara keilmuan dan atau professional dalam konteks peningkatan harkat manusia dan dalam masyarakat global.
Graduate Competence Mastering in Mechanical Engineering basic sciences that leads to the ability of thinking, taking action, and communication in line with the era, and having ability to develop continuously their potential. Having knowledge and skill in the fields of energy technology, design engineering, manufacturing engineering, and metallurgy. Also, the students are having the ability to apply their knowledge in the activites of productive operation, design, research, and to develop creatively their knowledge in industries inline with society needs, moral, and environment. Having sufficient insight on profession and being able to adapt and develop their knowledge scientifically and professionally in the context of improving the human life quality and in the global society.
STRUKTUR KURIKULUM/COURSE STRUCTURE No. Kode MK Code Nama Mata Kuliah (MK) Course Title sks Credits
SEMESTER I
1 IG091301 Pendidikan Agama Religion 2
2 IG091307 Bahasa Indonesia Indonesian 2
3 IG091308 Bahasa Inggris English 2
4 TM091214 Kimia Chemistry 3
5 SM091201 Kalkulus I Calculus I 3
6 SF091201 Fisika Dasar I Physics I 3
7 TM091317 Pengantar Teknik Mesin Introduction to Mechanical Engineering 3
Jumlah sks/Total of credits 18
SEMESTER II
1 TM091321 Program Komputer Dan Pengantar Teknologi Informasi Dan Komunikasi Computer Program Dan Intro. To Information And Communication Technology 3
2 IG091306 Kewarganegaraan Civics 2
3 TM091323 Menggambar Mesin Mechanical Drawing 3
4 TM091324 Statika Statics 3
5 SM091202 Kalkulus II Calculus II 3
6 SF091204 Fisika Dasar II Physics II 4
Jumlah sks/Total of credits 18
SEMESTER III
1 TM091231 Matematika Rekayasa I Engineering Mathematics I 3
2 TM091332 Termodinamika I Thermodynamics I 3
3 TM091333 Mekanika Fluida Dasar I Basic Fluid Mechanics I 2
4 TM091334 Mekanika Kekuatan Material Strength of Materials 3
5 TM091235 Teknik Tenaga Listrik Electrical Engineering 2
6 TM091336 Kinematika Mekanisme Kinematics of Mechanisms 3
7 TM091337 Pengetahuan Bahan Teknik Engineering Material Science 3
Jumlah sks/Total of credits 19
SEMESTER IV
1 TM091241 Matematika Rekayasa II Engineering Mathematics II 2
2 TM091342 Termodinamika II Thermodynamics II 2
3 TM091343 Mekanika Fluida Dasar II Basic Fluid Mechanics II 3
4 TM091344 Proses Manufaktur I Manufacturing Technology I 3
5 TM091345 Elemen Mesin I Machine Elements I 3
6 TM091346 Dinamika Teknik Dynamics 3
7 TM091347 Metalurgi Metallurgy 3
Jumlah sks/Total of credits 19
SEMESTER V
1 TM091351 Perpindahan Panas Heat Transfer 4
2 TM091252 Statistika Statistics 3
3 TM091353 Mekanika Getaran Mechanics of Vibration 3
4 TM091354 Proses Manufaktur II Manufacturing Technology II 3
5 TM091355 Elemen Mesin II Machine Elements II 3
6 TM091256 Analisa Numerik Numerical Analyisis 3
Jumlah sks/Total of credits 19
SEMESTER VI
1 TM091361 Mesin Konversi Energi Energy Coversion 3
2 TM091362 Perencanaan Eksperimen Experimental Design 2
3 TM091363 Sistem Dinamik Dan Pengendalian Dynamical Systems and Control 4
4 TM091364 Pengukuran Teknik Engineering Measurement 3
5 TM091365 Perencanaan Elemen Mesin Design of Machine Elements 2
6 TM0915 Pilihan I Elective I 3
17
Jumlah sks/Total of credits
SEMESTER VII
1 TM091371 Teknik Dan Menejemen Perawatan Maintenance Engineering and Management 3
2 TM0915 Pilihan II Elective II 3
3 TM0915 Pilihan III Elective III 3
4 TM091274 Riset Operasional Operational Research 2
5 TM091375 Mekatronika Mechatronics 4
6 TM091476 Proposal Tugas Akhir Final Project Proposal 2
Jumlah sks/Total of credits 17
SEMESTER VIII
1 IG091309 Pengantar Ilmu Lingkungan Introduction to Environmental Science 2
2 TM0915 Pilihan IV Elective IV 3
3 TM091383 Ekonomi Teknik Dan Studi Kelayakan Engineering Economics and Feasibility Study 2
4 TM091384 Kerja Praktek Industrial Training 2
5 TM091385 Menejemen Operasi Dan Technopreneurship Operational Management and Technopreneurship 3
6 TM091486 Tugas Akhir Final Project 5
Jumlah sks/Total of credits 17
SILABUS KURIKULUM/COURSE SYLLABUS MATA KULIAH/ COURSE TITLE IG091301: PENDIDIKAN AGAMA (Islam) IG091301: Religion
Credits: 2
Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa memahami, meyakini, mengamalkan ajaran Islam dan mengaktualisasikan dalam kehidupan. Student understand, trust and do Islamic teaching in their life.
KOMPETENSI/ COMPETENCY Mahasiswa memiliki iman, taqwa, akhlak yang mulia, penalaran yang baik, berpikir kritis, berwawasan luas, menjadikan nilai-nilai Islam untuk mengenali dan memecahkan berbagai masalah aktual; Mampu berkomunikasi dengan baik, bersikap mandiri dan toleran dalam mengembangkan kehidupan yang harmonis antar umat manusia. Students have true faith, God-fearing, and exalted moral, critical thinking, broad insight, to learn to know and solve various actual problems based on Islamic teaching. Be able to communicate well, to be self-confident and be tolerant in life hamonically with others.
POKOK BAHASAN/ SUBJECTS Konsep ketuhanan dalam Islam Hakekat manusia menurut Islam Hukum, ham dan demokrasi dalam Islam Etika, moral dan akhlak Iptek dan seni dalam Islam Kerukunan antar umat beragama Masyarakat madani dan kesejahteraan umat Kebudayaan Islam Sistem politik Islam Munakahat dalam Islam Islamic theology concept The human essence in Islamic view Law, human right, and democracy in Islam Ethic and moral Science, technology, and art in Islam Tolerance among different believers Prosperous society Islamic culture Islamic polytical system Marriage in Islam
PUSTAKA UTAMA/ REFERENCES __________, Terjemah Al Quran, Departemen Agama RI; Tin Dosen Pendidikan Agama Islam ITS, Kuliah al Islam; __________, Panduan Pendidikan Agama Islam di PTU, Departemen Agama RI; Muslim Nurdin, Moral dan kognisi Islam; Yusuf Qardawi, Karakteristik Islam; M. Imarah, Islam dan Pluralitas; Nur Cholis Majid, Cita-cita politik Islam; Hamzah Ya kub, Etika Islam; M. Rosyidi, Filsafat Islam.
MATA KULIAH/ COURSE TITLE IG091307: BAHASA INDONESIA IG091307: Indonesian
Credits: 2
Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa memperoleh kemahiran dalam menggunakan bahasa Indonesia untuk menguasai, menerapkan dan mengembangkan ilmu pengetahuan, teknologi dan seni dengan penuh rasa tanggung jawab sebagai warga negara yang berkepribadian mulia. Students expert using Indonesian to mastering, applying, and developing science, technology, and arts with fully responsible as a citizen having exalted character.
KOMPETENSI/ COMPETENCY Mahasiswa mampu menggunakan bahasa Indonesia untuk mengungkapkan fakta, gagasan, metode, konsep, dan prinsip-prinsip ilmiah ke dalam karya ilmiah yang berkualitas (memenuhi syarat lugas, logis, sistematis, cendekia, efektif, efisien, dan menarik); Mahasiswa mampu memanfaatkan kemahiran bahasa Indonesia untuk mengembangkan diri sepanjang hidupnya. Students have an ability to use Indonesian to deliver facts, ideas, concepts, and scientific principles in the form of high quality of scientific writing (logic, systematic, smart, efective, efficient, and atractive). Students have ability to use Indonesian well to develop theirselves in life.
POKOK BAHASAN/ SUBJECTS Pendahuluan: pengantar, bahasa Indonesia ilmiah, analisis kesenjangan dalam karya ilmiah (gap analysis). Komposisi bahasa: komposisi kalimat efektif, syarat-syarat keefektifan, paragraf dan teknik pengembangan paragraf (komposisi paragraf). Menulis akademik: menulis pendahuluan, metodologi, tinjauan pustaka dan/atau analisis/ pembahasan, serta daftar pustaka. Format penulisan karya ilmiah: proposal, makalah, dan atau laporan ilmiah. Konsep presentasi: teknik presentasi, penyiapan materi, kejelasan alur pikir, penyampaian materi. sikap berpresentasi, ringkasan dan jawaban berpresentasi; Praktik presentasi Introduction: Scientific Indonesian, gap analysis in scientific writing Composition: Effective sentence, effectiveness requirements, paragraph and its technical development. Academic writing: introduction composition, methodology, literature review and/or analysis/discussion, and references. Format of academic writing: proposal, papers, and or scientific report. Concept of presentation: presentation technique, preparation, clearness of logical thinking, delivery, presentation attitude, summary and answer of presentation; Presentation practices.
PUSTAKA UTAMA/ REFERENCES Alwi, Hasan. 2000. Tata Bahasa Baku Bahasa Indonesia. Jakarta: Balai Pustaka; Finosa, Lamudin. 2001. Komposisi Bahasa Indoneesia. Jakarta: Insan Mulia; Saukah, Ali. 2005. Menulis Artikel untuk Jurnal Ilmiah. Malang: Universitas Negeri Malang; Wibowo, Wahyu. 2001. Manajemen Bahasa: Pengorganisasian Karangan Pragmatik dalam Bahasa Indonesia untuk Mahasiswa dan Bisnis. Jakarta: Gramedia Pustaka Utama. ; Yulianto, Bambang. 2002. Sintaksis Bahasa Indonesia. Jakarta: Departemen Pendidikan Nasional.
MATA KULIAH/ COURSE TITLE IG091308: BAHASA INGGRIS IG091308: English
Credits: 2
Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa dapat memahami isi sebuah artikel/ jurnal/ teks akademik mengenai sains dan teknologi yang ditulis dalam bahasa Inggris, dapat mendiskripsikan informasi atau isi dari argumentatif teks lisan setelah menyimak teks tersebut, dan dapat mengungkapkan argumentasi atau ide-ide logis secara lisan atau tulisan. Students have the ability to understand scientific journals which are written in English, could describe the content of an argumentatif sentences after reading the text, and expressing their idea logically in writing or speaking.
KOMPETENSI/ COMPETENCY Mahasiswa dapat menerapkan strategy membaca yang efektif untuk menafsirkan isi argumentatif teks berbahasa Inggris yang berbasis sains dan teknologi; Mahasiswa dapat menafsirkan isi berbagai jenis teks lisan yang berbahasa Inggris; Mahasiswa dapat menyampaikan secara lisan dan tulisan argumen-argumen atau ide-ide dalam bahasa Inggris. Students having the ability to read effectively and intrepert an article of science and technology composed of an argumentatif sentences written in English. Students having the the ability to describe various sentences written in English. Students having the ability to write and speak in English to express their idea.
POKOK BAHASAN/ SUBJECTS Menyimak: Menyimak tabel, jurnal ilmiah atau artikel, ensiklopedia. Menyimak and Memprediksi: memprediksi isi buku berdasarkan sampul buku; mendengarkan kalimat lisan dan memberikan gambaran yang sesuai kalimat lisan itu; Memberikan prediksi berdasarkan alasan yang sesuai. Pengetahuan kosa kata untuk membaca dan mendengar yang efektif: Menebak arti dari konteks sebuah kalimat, menggunakan tatabahasa untuk menebak arti sebuah kata; mengenali kata-kata penyambung pikiran. Tema: mengenali dan menyatakan tema dari sebuah paragraf atau kalimat baik tertulis ataupun lisan; mencari dan menulis tema. Ide utama: mencari ide utama dalam sebuah kalimat; menyatakan ide utama sebuah paragraf; menyusun tema hingga ide utama; menyusun pendukung ide utama; membuat garis besar. Pola organisasi: mengenali kata untuk mengindentifikasi pola; mengenali pola berbagai kalimat; menulis essai dengan berbagai pola. Membaca cepat: membaca cepat buku, journal atau artikel. Membuat kesimpulan: Membuat kesimpulan dari informasi yang belum lengkap; membuat kesimpulan dari pembicaraan. Menyimpulkan dan analisa: menyimpulkan sebuah paragraf, membuat analisa kalimat atau artikel. Scanning: scanning in everyday life; scanning tables; scanning academic articles/journals,; scanning encyclopedia entry. Previewing and predicting: previewing and predicting book covers to foresee the contents; listen to spoken text and predict the suitable picture or figures; Say out loud the undelined reasons for predicting. Vocabulary knowledge for effective reading and listening: guessing meaning from context in sentences; using grammar to guess word meaning; recognizing words connecting ideas. Topics: stating and recognizing topics from a paragraph or a text in written and spoken text; working with the topics, finding and writing the topic sentence. Main Ideas: finding the main idea in the topic sentence, stating main ideas of a paragraph, develop topic to main ideas, develop supporting details for the main ideas, producing an outline. Patterns of organization: recognizing signal words to identify the types of patterns, recognizing the patterns of various written texts; writing an essay with some selected patterns. Skimming: skimming book reviews skimming jurnal or articles. Making inference: Infering missing information, making inferences from conversations. Summarizing and analysis: summmarizing a paragraph or passages, and making a text or article analysis.
PUSTAKA UTAMA/ REFERENCES Mikulecky and Jeffries, More Reading Power, Addison-Wesley publishing Company, 1996; Supriyanto, Critical Reading, ITB, 2007; ITS English Teaching Team, English for Science and Technology, ITS, 2008. Hayden, R.E., Pilgrim, D.W, and Haggard, A.Q., Mastering American English, Prentice Hall, Inc., 2000; Anderson and Anderson, Text Types in English, Macmillan, 2003.
MATA KULIAH/ COURSE TITLE SM091201: KALKULUS I SM091201: Caculus I
Credits: 3
Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa dapat memahami dan menyelesaikan permasalahan kalkulus yaitu tentang fungsi bilangan real, limit, diferensial dan penerapnnya serta integral fungsi. Students having the ability to understand and solving calculus problems which are real number function, limit, differential and its application withl integral function.
KOMPETENSI/ COMPETENCY Mahasiswa dapat menyelesaikan masalah pertidaksamaan, menentukan domain, range dan menggambar fungsi; Mahasiswa dapat menentukan limit fungsi dan kontinuitas fungsi; Mahasiswa dapat menurunkan/mendeferensialkan fungsi dan menerapkannya; Mahasiswa dapat menghitung integral tertentu dan menerapkan untuk menghitung luas dibawah kurva. Students be able to solve Inequalities problem, determining domain, range and drawing function. Students be able to determine functions limit and functions continuity. Students having the ability to differentiate function and applying it. Students be able to calculate certain integration and using it to calculate an area under the curve.
POKOK BAHASAN/ SUBJECTS Sistem Bilangan Real: pengertian nilai mutlak, pertidaksamaan, garis, jarak dua titik, lingkaran. Fungsi dan Limit: Domain, dan range fungsi: linear, kuadratik dan trigonometri dan grafik, identifikasi fungsi linear dan grafik fungsi, limit fungsi dan kontinuitas. Diferensial/Turunan: definisi turunan, aturan turunan fungsi, turunan fungsi trigonometri, aturan rantai, fungsi implicit. Aplikasi Diferensial/Turunan: laju-laju berkaitan, penentuan interval naik-turun suatu grafik fungsi, masalah optimasi. Integral: definisi, integral tak tentu, integral tertentu, luas di bawah kurva. Real Number System: definition of absolut number, Inequalities, line, distance between two points, circle. Function and Limit: domain and range, function: linear, kuadratic and trigonometric, grafic, linear function identification, grafic function, limit function, continuity. Differential: definition of differential,differential function rules, trigonometric differential function, chain rules, implicit function. Differential applications: associated rates, determining minima-maxima intervals for a grafic function, optimation problems. Integral: definition, indeterminate integral, determinate integral, area under the curve.
PUSTAKA UTAMA/ REFERENCES Tim Dosen Jurusan Matematika ITS, Buku Ajar Kalkulus I, Edisi ke-5, Jurusan Matematika ITS, 2009. Purcell, J.E. and Rignon, Calculus, 8th ed., Prentice Hall, 2000; Thomas, G., Calculus, Pearson Addison and Wesley, 2005.
MATA KULIAH/ COURSE TITLE SF091201: FISIKA DASAR I SF091201: PHYSICS I
Credits: 3
Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mampu menjelaskan fenomena fisis dan menggunakan rumusan hukum-hukum dasar fisika. Students able to explain physical phenomena and utilize the formulas of basic physical laws.
KOMPETENSI/ COMPETENCY Mahasiswa mampu menguraiakan besaran vektor, menggunakan operasi vektor; Mahasiswa mampu menjelaskan dan menggunakan rumusan tentang kinematika partikel, dinamika partikel, kerja dan energi, tumbukan, dinamika rotasi, getaran, maknika fluida, dan kalor. Students be able to elaborate vector quantity, utilizing vector operation. Students be able to explain and utilize particle kinematics formulas, particle dynamics, work and energy, collision, rotation dynamics, vibration, fluid mechanics, and calor.
POKOK BAHASAN/ SUBJECTS Besaran dan vektor, kinematika partikel: kecepatan, percepatan, gerak lurus, gerak parabola, gerak meling-kar. Dinamika partikel: hukum Newton, gaya gesek. Kerja dan energi: konsep kerja, energi kinetik, energi potensial, kekekalan energi mekanik, momentum dan tumbukan. Gerak rotasi: kecepatan dan percepatan sudut, momen gaya dan momen inersia, gerak menggelinding. Getaran: gerak harmonis sederhana, gabungan getaran selaras. Mekanika fluida: hidrostatika, hidrodinamika. Kalor: termometri dan perpindahan panas. Magnitude and vector, particle kinematics: velocity, acceleration, straight-line motion, parabolic motion, circular motion. Particle dynamics: Newtons law, friction. Work and energy: concept of work, kinetic energy, potential energy, mechanical energy conservation, momentum and collision. Rotational motion: angular velocity and acceleration, moment of force,moment of inertia and rolling motion. Vibration: simple harmonic motion, combination of harmonic vibration. Fluid mechanics: hydrostatics, hydrodynamics. Calor: thermometry and heat transfer.
PUSTAKA UTAMA/ REFERENCES Tim Dosen, Diktat Fisika I, Fisika FMIPA-ITS; Tim Dosen, Soal-soal Fisika I, Fisika FMIPA-ITS; Tipler, P.A., (terjemahan, L. Prasetio dan R.W. Adi), Fisika : untuk Sains dan Teknik, Jilid 1, Erlangga, Jakarta, 1998. Alonso & Finn, Fundamental University Physics, Addison Wesley Pub. Comp. Inc., 1st. ed., Calf, 1990; Giancoli, DC., (terjemahan, Yuhilza H.), Fisika, Jilid 1, Erlangga, Jakarta, 2001.
MATA KULIAH/ COURSE TITLE TM091317: PENGANTAR TEKNIK MESIN TM091317: INTRO. TO MECHANICAL ENGINEERING
Credits: 3
Semester: I
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Agar mahasiswa mempunyai gambaran tentang profesi bidang teknik mesin dan mampu menjelaskan suatu produk dari rekayasa teknik mesin. To provide understanding in the global view of mechanical engineering field and able to elaborate on the mechanical engineering product.
KOMPETENSI/ COMPETENCY Mempunyai kemampuan mengenai dasar-dasar konversi energi dan disain Mempunyai pemahanan mengenai dasar-dasar manufakturing dan metalurgi Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Be able to understand of basic energy conversion and design Be able to understand of basic manufacturing and metallurgy The ability to raise questions, comments, and answering quetions, and teamwork
POKOK BAHASAN/ SUBJECTS konversi energi manufaktur dan produksi desain metalurgi Energy Conversion Manufacturing and Production Design Metallurgy
PUSTAKA UTAMA/ REFERENCES Martin W. Stockel / Martin T. Stockel, Automechanics Fundamentals, The Good heart Willcock Company Inc., 1982. Biel Taboldt , Diesel Fundamentals, The Good heart Willcock Company Inc., 1983. Serope Kalpakjian, Manufacturing Peocesses for Engineering Materials, 3rd Edition Addison Wesley, 1997. Deutschman Aaron D., Machine Design, Theory and Practice, Collier Macmillan Int. Ed. , London 1975. Schlenker B.R., Introduction to Materials Science, SI Edition, John Wiley & Sons, Australasia, Sidney, 1995.
MATA KULIAH/ COURSE TITLE TM091321: PROGRAM KOMPUTER DAN PENGANTAR TEKNOLOGI INFORMASI DAN KOMUNIKASI TM091321: COMPUTER PROGRAM DAN INTRO. TO INFORMATION AND COMMUNICATION TECHNOLOGY
Credits: 3
Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memperkenalkan Algorithma, Flow Chart, pengaturan dan struktur bahasa pemrograman komputer, agar mahasiswa mampu menjabarkan suatu proses/prosedur ke dalam algoritma yang terstruktur dan menyusun flowchart, agar mahasiswa mampu menterjemahkan flowchart ke dalam suatu bahasa pemrograman. Memberikan pemahaman dan mengenalkan tentang Teknologi Informasi dan Komunikasi serta pemanfaatannya di berbagai bidang ilmu, dan agar mahasiswa ITS terampil dalam menggunakan TIK. Introducing Algorithm, Flow Chart, arrangement and computer programming language structure, in which students are able to elaborate a procedure/process into a structural algorithm and to compile a flowchart, so students are able to translate a flowchart into programming language. Giving a comprehension and introducing information and communication technology as well for its application in various fields of science, and students are skilled enough in utilizing Information and Communication Technology.
KOMPETENSI/ COMPETENCY Mahasiswa dapat mengerti dan menggunakan dasar-dasar pemrograman komputer Mahasiswa memahami apa saja yang bisa dilakukan dan apa saja yang tidak bisa dilakukan dengan bantuan TIK. Mahasiswa bisa menggunakan TIK untuk berbagai aplikasi Students are able to understand and utilizing the principle of computer programming. Students are able to grasp kind of activities that are possible and impossible to do with the aid of Information and Communication Technology. Students having the ability to use Information and Communication Technology in various fields.
POKOK BAHASAN/ SUBJECTS Elemen dasar dalam pemrograman komputer: Algoritma, Flowchart dan Diagram Block, conditional statement, looping, procedure, function dan array/record. Studi kasus dalam penyusunan algoritma dan flow chart: Penentuan akar persamaan kuadrat, konversi nilai angka ke nilai huruf, aturan pengambilan SKS berdasarkan IP Semester, metode sorting (mengurutkan bilangan), operasi matrik, dll Pendalaman bahasa pemrograman: Struktur bahasa pemrograman, deklarasi dan statemen, sistem input-output variabel, Simple statement, jenis error, jenis variabel, reserved words. Studi kasus dalam penyusunan program komputer: Penyusunan program komputer untuk Flowchart di poin 2 Definisi TIK, Sejarah TIK, Karakteristik TIK, dan manajemen TIK Konten TIK, Peralatan TIK, Jaringan Komputer dan Komunikasi Data, Layanan TIK, Perangkat Lunak, Pengamanan dan Etika dalam TIK, Aspek Sosial dan budaya, Membangun TECHNOPRENEURSHIP dengan TIK Ketrampilan Praktek The basic element of computer programming: Algorithm, Flowchart and Block Diagrams, conditional statements, looping, procedures, functions and arrays / records. Case studies in compilling algorithm and flow chart, roots of quadratic equations determination, conversion from numerical values to letter values, acquired credits based on semester grades, sorting methods, matrix operation,etc. Computer language profound, computer language structure, declaration and statement, input-output variable system, simple statement, types of error, types of variable, reserved words. Case studies in compilling computer programming: compilling computer programming for the flowchart in point 2. Definition of Information and Communication Technology (ICT), History of ICT, characteristic of ICT, management of ICT. Content of ICT, ICTs equipment, Computer Networking and Data Communication, ICTs service software, security and ethics in ICT. Social and cultural aspect, Building technopreneurship with ICT. Practicing computer programming language.
PUSTAKA UTAMA/ REFERENCES Abdul Kadir, Pemrograman Dasar Turbo Pascal, Andi Offset, Yogyakarta, 1987. J. Wels, J. Elder, Introduction to Pascal, Prentice Hall, 1997. Hartono Partoharsodjo, Tuntunan Praktis Pemrograman Bahasa Pascal, Elex Media Komputindo, Jakarta, 1991. Diktat Pengantar Teknologi Informasi, oleh tim PTIK ITS
MATA KULIAH/ COURSE TITLE IG091306: KEWARGANERAAN IG091306: CIVICS
Credits: 2
Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES 1. Membantu mahasiswa mengembangkan potensinya untuk menguasasi ilmu pengetahuan, ketrampilan, dan sikap kewarganegaraan dan nilai-nilai yang diperlukan dalam rangka penerapan ilmu, profesi dan keahliannya serta berpartisipasi dalam kehidupan masyarakat dari komuniti setempat, bangsa dan dunia; 2. Menjadi warga Negara yang cerdas, demokratik dan berkeadaban, dan bertanggung jawab, menggalang kemampuan kompetitif bangsa di era globalisasi, yang efektif mencakup: a. Pemahaman dasar tentang cara kerja demokrasi dan lembaga-lemabaganya; b. Pemahaman tentang rule of law dan HAM seperti tercermin dalam rumusan-rumusan perjanjian dan kesepakatan internasional dan lokal; c. Penguatan ketrampilan partisipatif yang akan memberdayakan peserta didik untuk merespons dan memecahkan masalah-masalah masyarakat secara demokratis; d. Pengembangan budaya demokrasi dan perdamaian pada lembaga-lembaga pendidikan dan seluruh aspek kehidupan masyarakat. 1. To help students to develop their potential for matering science, skills, and attitude as a citizen, and moral values that needed to apply their knowledge, profession, and expertise, and to participate in society life of a local community, nation, and the world ; 2. Become a smart, democratic, civilzed, adn responsible citizen, be able to explore nation competitiveness potential in global era effectively that includes:: a. Basic understanding about democratic mechanism and organization; b. Understanding about rule of law and human right as reflected in treaty and local and international agreement; c. Participative skill enhancement that will engage the students to respond and solve society problems democatically; d. Democartical nd peace culture development in educational institution and all society life aspects .
KOMPETENSI/ COMPETENCY Sesuai dengan Surat Keputusan Dirjen Dikti No.43/DIKTI/Kep/2006, Kompetensi Pendidikan Kewarganegaraan adalah menjadi ilmuwan dan professional yang memiliki rasa kebangsaan dan cinta tanah air, demokratis yang berkeadaban; menjadi warga negara yang memiliki daya saing; berdisiplin; dan berpartisipasi aktif dalam membangun kehidupan yang damai berdasarkan sistem nilai Pancasila. Become a scientist and profession having nationality and patriotism, civilized democratic thinking, and become a citizen having competitiveness ability, discipline, and be able to actively participate in living development peacefully, based on the values on Pancasila.
POKOK BAHASAN/ SUBJECTS Filsafat Pancasila: Pengantar, Pancasila dalam Pendekatan Filsafat, Makna Pancasila sebagai Dasar Negara, Implementasi Pancasila sebagai dasar Negara, Makna Pancasila sebagai Idiologi nasional, Implementasi Pancasila sebagai Idiologi Nasional, Pengamalan Pancasila. Identitas Nasional; Pengantar, Sejarah kelahiran faham nasionalisme Indonesia, Karakteristik Identitas Nasional;Unsur-Unsur Identitas Nasional, Pelaksanaan Unsur-unsur Identitas Nasional, Pemberdayaan Identitas Nasional ; Tantangan Globalisasi, Revitalisasi Pancasila sebagai Pemberdayaan Identitas Nasional. Hak dan Kewajiban Warga Negara; Pengantar, Pengertian Warga Negara dan Kewarganegaraan, Kewarganegaraan dalam arti Yuridis dan Sosiologis, Kewarganegaraan dalam arti Formil dan Materiil, Kedudukan Warga negara dalam Negara, Warga negara Indonesia, Ketentuan Undang-Undang Mengenai WNI, Hak dan Kewajiban Warga Negara Indonesia. Negara dan Sistem Konstitusi; Pengantar, , Gagasan tentang Konstiituasionalisme, Negara Konstitusional, Konstitusi Negara; Pengertian Konstitusi, Kedudukan Konstitusi, UUD 1945 Sebagai Konstitusi Negara Indonesia; Konstitusi yang pernah berlaku di Indonesia, Proses Amandemen UUD 1945, Substansi UUD Negara Indonesia 1945, sistem Ketatanegaraan Indonesia; Bentuk Negara Kesatuan, Bentuk Pemerintahan Republik, Sistem Pemerintahan Presidensil, Sistem Politik demokrasi. Demokrasi di Indonesia; Pengantar, Hakekat demokrasi, Pengertian Terminologis Demokrasi, Prinsip-Prinsip Demokrasi, Demokrasi sebagai bentuk pemerintahan, Demokrasi sebagai Sikap Hidup, Demokratisasi, Nilai Demokrasi, Lembaga (struktur) Demokrasi, Ciri Demokratisasi, Demokrasi Di Indonesia, Perkembangan Demokrasi Indonesia, Sistem politik demokrasi; landasan sistem politik demokrasi di Indonesia, sendi-sendi pokok Politik Demokrasi Indonesia, Mekanisme dalam sistem politik Demokrasi indonesia, Pendidikan Demokrasi. HAM dan Rule of Law; Pengantar, Konsep dan Ciri Negara Hukum; Penegrtian Hukum, Negara Hukum Formil dan Negara Hukum materiil, Ciri-ciri Negara hokum, Negara Hukum Indonesia; Landasan Yuridis Negara hokum Indonesia, Perwujudan Negara Hukum di Indonesia, Hubungan Negara Hukum dengan Demokrasi Hakekat HAM, pengertian HAM, Macam-macam HAM, Sejarah Perkembanagn HAM; Sejarah pengakuan HAM, HAM di Indonesia, Penegakan HAM di Indonesia, Konvensi Internasional tentang HAM Keikutsertaan Indonesia dalam Konvensi internasional. Pancasila philosophy: introduction, Pancasila in piylosophy approach, Pancasila meaning as a nation fundamental, implementation of Pancasila as a nation fundamental; Pancasila meaning as a nation ideology; implementation of Pancasila as a nation ideology; implementing of Pancasila; National identiy: Introduction, historical background of Indonesia nationalism concept; National identity characteristics; National identity elements; Implementation of National identity elements; Utilization of National identity; Global challenge; Pancasila revitalization as the utilization of National identity; Right and duty as a citizen: Introduction; definition of citizen and citizenship; citizenship in the juridical and sociologic meaning; citizenship in the formal and material meaning; status of citizen in the nation; Indonesian citizen; Indonesian citizen in the law; eight and duty of Indonesian citizen; Nation and Constitutional system: Introduction; constitutional idea; constitutional Nation; Nation constitution; Constitutional meaning; constitution status; UUD 1945 as National constitution of Indonesia; Constitutions in Indonesian History; UUD 1945 amandment proccess; substance of 1945 Indonesian basic law; Indonesian state of government; The form of Unity nation; Republic government; Presidential government system; democratic polytical system; Democracy in Indonesia: Introduction; the essence of democracy; Democratic terminology definitions; Democratic principles; Democracy as a form of government; democracy as attitude of life; Democratization; Democratic values; Institution/structure of democracy; democratization characteristics; Democracy in Indonesia; Development of democracy in Indonesia; Democratic polytical system; fundamentals of Democratic polytical system in Indonesia; basic principles of Indonesian democratic polytics; mechanism in democratic polytical system in Indonesia; democratic education. Human Right and Rule of Law: Introduction; Concepts and characteristics of a constitutional state; definition of constitutional state; Formal constitutional state and material constitutional state; Indonesia as a constitutional state; yudicial bais of constitutional state in Indonesia; actualization of constitutional state in Indonesia; relationship between constitutional state and democracy; principles of human right; definition of human right; types of human right; history of human right; history of human right legality; human right in Indonesia; establishment of human right in Indonesia; international convention of human right; participation of Indonesia in international convention.
PUSTAKA UTAMA/ REFERENCES Armaidy Armawi, Geostrategi Indonesia, Direktorat jenderal Pendidikan Tinggi, Jakarta, 2006; Azyumardi Azra, Paradigma Baru Pendidikan Nasional dan Rekrontruksi dan Demokratisasi, Penerbit Kompas, Jakarta, 2002; Bahar, Dr. Saefrodin, Konteks Kenegaraan, Hak Asasi Manusia, Pustaka Sinar Harapan, Jakarta, 2000; Cassesse, Antonio, Human Right In a Change Word, Hak-Hak Asasi Manusia di Dunia yang Berubah, (terjemahan R. Zainudin), Yayasan Obor Indonesia, Jakarta, 1994; Kaelan, Pendidikan Kewarganegaraan, UGM Press, Yogyakarta, 2005;
MATA KULIAH/ COURSE TITLE TM091323: MENGGAMBAR MESIN TM091323: MECHANICAL DRAWING
Credits: 3
Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa mengenal dan memahami kegunaan alat-alat gambar, aturan dasar yang digunakan untuk mewujudkan gambar teknik, dapat membaca gambar, serta dapat membayangkan bentuk, membuat gambar sket dan memberikan ukuran pada bendanya. Memahami dan mengerti akan standarisasi gambar teknik, komponen-komponen mesin serta cara penggambarannya. Mengerti dan mampu membuat gambar sket, gambar rinci kemudian disusun dalam suatu gambar susunan secara manual maupun dengan autocad. Mahasiswa mengenal dan memahami tentang toleransi, suaian dan aplikasinya. Mengenal dan memahami akan tanda pengerjaan, lambang-lambang tanda pengerjaan. Mengenal dan memahami akan simbol pengelasan baik pada sistem proyeksi Amerika maupun sistem proyeksi Eropa serta lambang-lambang P&ID Students are able to identify and conceive the function of drawing tools, using basic rules to create technical drawing, able to read technical drawing, to imagine shapes, to draw sketch and assign dimension to the object. Students apprehendd standardization of technical drawing, machines components along with drawing method. Apprehendd and able to draw sketch, detailed image subsequently compiled into composition picture in manual method as well as in Autocad. Recognize and apprehendd tolerance, fitting and its application. Recognize and apprehendd sign of progress, symbols from sign of progress. Recognize and apprehendd weldings symbol as in American projection system and Europe projection system along with P&ID symbols.
KOMPETENSI/ COMPETENCY Mempunyai kemampuan mengenai menggambar teknik Mempunyai kemampuan membedakan sistem proyeksi Amerika dan sistem proyeksi Eropa Mampu mengenal dan memahami lambang-lambang P & ID Having the ability related with technical drawing. Having the ability to distinguish between American projection system and Europe projection system. Having the ability to identify and apprehendd P & ID symbols.
POKOK BAHASAN/ SUBJECTS Fungsi, bentuk dan pemakai gambar, alat-alat gambar serta kegunaannya dan standarisasi (normalisasi) gambar teknik. Penyajian benda dalam bentuk gambar pandangan tunggal atau gambar tiga dimensi, antara lain dalam proyeksi isometri, proyeksi dimetri dan proyeksi paralel. Penyajian benda dalam bentuk gambar pandangan majemuk (proyeksi orthogonal) baik menurut sistem proyeksi Eropa maupun sistem proyeksi Amerika. Aturan dasar memberi ukuran serta cara-cara memberi ukuran pada gambar. Penyajian benda dalam bentuk gambar potongan/ penampang Penyajian benda dalam bentuk gambar skets, gambar rinci dan gambar susunan Cara penggambaran komponen standar, gambar pegas serta gambar roda gigi dalam bentuk gambar rinci maupun gambar susunan. Pengenalan dan aplikasi tanda pengerjaan, toleransi, suaian. Pengenalan simbol las baik pada sistem proyeksi Amerika maupun sistem proyeksi Eropa. Pengenalan simbol atau lambang P&ID Function, shapes and user image, drawing tools along with its application dan technical drawing standardization. Presentation of the object in the form of single-view drawings or three dimensonal images, among others, in the projection isometry, dimetri projection and parallel projection. Presentation of the object in the orthogonal projection both according to American projection system and Europe projection system. Basic rules in assigning dimension along with methods to give the size of an image. Presentation of the object in the form of cross-section images. Presentation of the object in the form of sketch, detailed image, compositional image. Methods to depict standard components, spring and gear images in the form of detailed images along with compositional image. Introduction and application of signs of progress, tolerance, fitting. Introduction on weldings symbol according to American projection system and Europe projection system. Introducing P&ID symbols.
PUSTAKA UTAMA/ REFERENCES Ir.Ohan Juhana, M Suratman S.Pd., Menggambar Teknik Mesin Menurut Standar ISO. La Hey, Ilmu Menggambar Bangunan Mesin. G. Takeshi Sato, N Sugiarto Hartanto, Menggambar Mesin Menurut standar ISO. ISO Standard Hand Book 12, Technical Drawing
MATA KULIAH/ COURSE TITLE TM091324: STATIKA TM091324: STATICS
Credits: 3
Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberikan pemahaman tentang statika (sistem gaya statis), melatih panalaran sistem gaya pada benda tegar, penyelesaian masalah untuk mendapatkan diagram bidang gaya dan penerapan sederhana sistem gaya pada struktur truss, kabel, dan tali. Providing insight into statics force system, practicing logical thinking within force system of a rigid body, problem solving to obtain force diagram and simple application of force system on truss, cable and rope.
KOMPETENSI/ COMPETENCY Kemampuan analisa sistem gaya dan keseimbangannyapada struktur sederhana Kemampuan menerapkan pada penyelesaian masalah untuk mendapatkan diagram bidang gaya dan penerapan sederhana sistem gaya pada struktur truss, kabel, dan tali. The ability to analyze force system and the balance on a simple structure. The ability to apply problem solving to obtain force diagram and simple application of force system on truss, cable and rope.
POKOK BAHASAN/ SUBJECTS Sistem Keseimbangan Gaya dan Momen Diagram Bidang Gaya dan Momen Analisa Struktur Truss 2D dengan Metode Sambungan, Maxwell, Ritter Gaya dan Lendutan pada Kabel dan Tali Momen Inersia dan Momen Polar Konsep Teg 2D (akibat gaya normal, gaya lintang, momen bending, torsi, temperatur) Force and Moment Balance System Force and Moment Diagram Structure analysis of 2D truss with Connection method, Maxwell, Ritter Force and deflection on rope and cable. Moment of inertia and polar moment. Two- Dimensional stress concept ( due to normal force, transverse force, bending moment, torsion, temperature).
PUSTAKA UTAMA/ REFERENCES Russell C. Hibbeler, Engineering Mechanics: Statics, Seventh Edition, Prentice Hall, 1995. J. L. Meriam and L. G. Kraige, Engineering Mechanics: Statics, Fourth Edition, John Willey and Sons, 1997. William F. Riley, Leroy D. Struges and Don H. Morris, Statics and Mechanics of Materials: An Integrated Approach, first Edition, John Wiley and Sons, 1995.
MATA KULIAH/ COURSE TITLE SM091202: KALKULUS II SM091202: Calculus II
Credits: 3
Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa dapat memahami dan menyelesaikan permasalahan kalkulus yaitu tentang fungsi transenden, invers fungsi, integral dan terapannya, deret tak hingga dan koordinat kutub. Students having the ability to understand and solving calculus problems which are transcendent function,inverse function, integral and its application,infinite series and polar coordinates.
KOMPETENSI/ COMPETENCY Mahasiswa dapat melakukan operasi dan menggambarkan fungsi algoritma exponensial, dan hiperbolik, menentukan invers fungsi dan turunannya; Mahasiswa dapat menghitung integral dengan pendekatan numerik, menghitung integral tak wajar; Mahasiswa dapat menggunakan teknik integrasi, integral parsial, fungsi trigonometri dan lainnya untuk menghitung integral dan menghitung luas antara dua kurva, volume benda putar, momen inersia dan titik berat; Mahasiswa dapat menggambar grafik dalam koordinat kutub, persamaan parametrik dan menghitung luas daerah dalam koordinat kutub; Mahasiswa dapat menentukan konvergensi barisan dan deret tak hingga. Students are able to carry out and depict algorithm exponential function and hyperbolic, to determine inverse function and its derivative. Students are able to calculate integral with numerical approach, to calculate unnatural integral. Students are able to use integration technique, partial integration, trigonometric functions, etc, to calculate integral and area between two curves, volume of round objects, moment of inertia and centre of gravity. Students are able to depict graphic in polar coordinates, parametric equations and to calculate areas within polar coordinates. Students are able in determining convergence sequence and infinite series.
POKOK BAHASAN/ SUBJECTS Fungsi Transenden: fungsi logaritma,eksponensial, hiperbolik, grafik fungsi, invers fungsi dan turunannya. Integrasi Numerik dan Integral Tak Wajar: integrasi numerik, aturan Simpson, trapezoidal, integral tak wajar, aturan LHopital. Teknik Integrasi: integral parsial, integrasi fungsi trigonometri, fungsi pecah rasional dan teknik lainnya. Aplikasi Integral Tertentu: luas antara dua kurva, volume benda putar, panjang kurva, momen inersia, titik berat, kerja, tekanan dan gaya. Koordinat Kutub: pengertian, grafik dalam koordinat kutub, luas daerah, persamaan parametric, garis singgung dan panjang busur dalam koordinat kutub. Deret Tak Hingga: barisan tak hingga, deret tak hingga, uji konvergensi, deret Taylor, deret Maclaurin dan aplikasi deret pangkat. Transcendent function: logarithm function, exponential function, Hyperbolic function, grafic function, inverse function, and its derivatives. Numerical integration and unnatural integral: numerical integration, Simpsons rules, trapezoidal, unnatural integral, LHopital integral. Integration technique: partial integral, integration of trigonometric function, rational function , and other techniques. Application of spesific integral : area between two curves, volume of round objects, curve length, moment of intertia, centre of gravity, work, pressure and force. Polar Coordinates: definition, graphic in polar coordinates, areas, parametric equations, tangent and arc length in polar coordinates. Infinite Series: infinite sequence, infinite series, convergence test, Taylor series, Maclaurin series and power series applications.
PUSTAKA UTAMA/ REFERENCES Tim Dosen Jurusan Matematika ITS, Buku Ajar Kalkulus II, Edisi ke-5, Jurusan Matematika ITS, 2009. Purcell, J. E. and Rignon, Calculus, 8th ed., Prentice Hall, 2000. Thomas, G., Calculus, Pearson Addison and Wesley, 2005.
MATA KULIAH/ COURSE TITLE SF091204: FISIKA DASAR II SF091204: PHYSICS II
Credits: 4
Semester: II
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mampu menjelaskan fenomena fisis dan menggunakan rumusan hukum-hukum dasar fisika. Students are able to explain physical phenomena and utilizing the basic equations of physical laws.
KOMPETENSI/ COMPETENCY Mahasiswa mampu menjelaskan gejala fisika tentang listrik dan magnet Mahasiswa mampu menggunakan rumusan hukum-hukum dasar fisika tentang listrik dan magnet Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya Students are able to explain the physics of electricity and magnetism. Students are able to utilize the basic equations of physical laws related with electricity and magnetism. Students can conduct experiments and analyze the results.
POKOK BAHASAN/ SUBJECTS Muatan listrik, hukum Coulomb, dan medan listrik: kuat medan listrik, garis gaya, perhitungan kuat medan listrik. Hukum Gauss: fluks, hukum Gauss dan aplikasinya. Potensial listrik: energi potensial, medan dan potensial listrik. Kapasitor: kapasitansi, dielektrik. Arus listrik: arus dan gerak muatan, hukum Ohm, energi dalam rangkaian listrik. Rangkaian arus searah: hukum Kirchoff, rangkaian RC. Medan magnet: gaya magnet, momen gaya, sumber medan magnet. Induksi magnetik: fluks magnet, GGL induksi, generator. Arus bolak-balik: arus bolak-balik dalam resistor, induktor, kapasitor, rangkaian R-L, R-C, R-L-C. Electric charge, Coulomb law and the electric field: strength of electric field, lines of force, electric field strength calculation. Gauss law: flux, Gauss law and its applications. Electrical portential: potential energy, magnetic field and electric potential. Capacitor: capacitance, dielectric. Electric currents: current and charge motion, Ohm laws, electrical circuits energy. Direct current circuits: Kirchoff laws, RC circuits. Magnetic field: magnetic force, moment of force, the source of magnetic field. Magnetic induction: magnetic flux, induced emf, generators. Alternating currents: alternating currents in a resistor, inductor, capacitor, R-L. R-C, R-L-C circuits.
PUSTAKA UTAMA/ REFERENCES Tim Dosen, Diktat Fisika II, Fisika FMIPA-ITS; Tim Dosen, Soal-soal Fisika II, Fisika FMIPA-ITS; Tipler, P. A., (terjemahan, L. Prasetio dan R.W. Adi), Fisika : untuk Sains dan Teknik, Jilid 2, Erlangga, Jakarta, 1998. Halliday & Resnick, Fundamental of Physics, John Wiley and Sons, New York, 1987.
MATA KULIAH/ COURSE TITLE TM091231: MATEMATIKA REKAYASA I TM091231: ENGINEERING MATHEMATICS I
Credits: 3
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memahami tentang PD biasa linear tingkat tinggi dan aplikasinya pada masalah teknik, membentuk model matematika pada masalah-masalah diskrit. Students are able to comprehend linear ordinary differential equations and its applications in engineering problems, forming a mathematical model of discrete problems.
KOMPETENSI/ COMPETENCY Mampu memaham dan penerapannya dalam penyelesaian soal tentang PD biasa linear tingkat tinggi dan aplikasinya pada masalah teknik, membentuk model matematika pada masalah-masalah diskrit. Able to comprehend its applications in solving linear ordinary differential equations and engineering problems, forming a mathematical model of discrete problems.
POKOK BAHASAN/ SUBJECTS PD biasa linear tingkat tinggi dengan koefisien konstan, determinan Wronski, metode variasi parameter, operator D, PD euler, PD simultan, penerapan PDB pada masalah-masalah teknik, transformasi Laplace, konvolusi, fungsi tangga, fungsi direct, penggunaan TL pad PD biasa, kalkulus beda hingga, jumlah deret persamaan beda hingga (PBH), transformasi Z dengan penggunaannya pada PBH, transformasi-transformasi koordinat pada integral lipat. Linear ordinary differential equations with constant coefficient, Wronski determinant. Method of parameter variation, D operator, Euler Differential Equations, simultaneous Differential Equations, PDB application in engineering problems. Laplace transformation, convolution, step function, direct function,TL application in regular Differential Equations. Calculus of finite difference, number of runs of finite difference equations, Z transformation with its application in finite difference equations, the coordinate transformations in the folding integral.
PUSTAKA UTAMA/ REFERENCES Kreyzig, Advanced Engineering Mathematics, 7th, Ed. John Wiley & Sons, 1993. Kaplan, Advanced Calculus, 1st Ed, Addison Wesley Publishing Company, Inc. 1952. Shepley L Ross, Differential Equations. Richardson, C.H., An Introduction to Calculus of Finite Differences, D. Van Nostrand Company, Inc. 1954.
MATA KULIAH/ COURSE TITLE TM091332: TERMODINAMIKA I TM091332: THERMODYNAMICS I
Credits: 3
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberikan pengertian dan pemahaman kepada mahasiswa tentang konsep-konsep dasar termodinamika, hukum Termodinamika I & II, analisis sistem keteknikan dan analisis daya guna energi, analisis daur daya Sistem Tenaga Uap. To give understanding to students about basic concepts of thermodynamics, the 1st and 2nd laws of thermodynamics, engineering system and efficiency analyses, and steam power plant analysis.
KOMPETENSI/ COMPETENCY Mempunyai kemampuan dalam menganalisa dan penerapannya dalam penyelesaian soal hukum Termodinamika I & II, analisis sistem keteknikan dan analisis daya guna energi, analisis daur daya Sistem Tenaga Uap. Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. The students be able to analyze and apply in the 1st and 2nd laws of thermodynamics, engineering system and efficiency analyses, and steam power plant analysis. Understanding in doing lab. works and doing data analysis. The ability to raise questions, comments, and answering quetions, and teamwork.
POKOK BAHASAN/ SUBJECTS Pengetahuan tentang sistem, Sistem dimensi dan satuan, Neraca energi untuk massa atur, Analisis energi siklus Pemahaman property (sifat-sifat) zat, Energi dalam, enthalpi, Model gas ideal, Kekekalan energi untuk volume atur Analisa transien Hukum kedua termodinamika, Konsep entropi, Neraca entropi untuk massa atur, Laju neraca entropi untuk volume atur, Proses isentropik, efisiensi isentropik Pengenalan exergi Sistem pembangkit tenaga uap System definition, dimension and units, energy balance of a system, energy analysis of a cycle. Properties of matters, internal energy, enthalpy, ideal gas model, conservation of energy of a control volume. Transient analysis. Second law of thermodynamics, concept of entropy, entropy balance for a control volume, isentropic process, isentropic efficiency. Introduction to exergy. Steam power plant.
PUSTAKA UTAMA/ REFERENCES Moran, J. Michael & Howard N. Saphiro, Fundamental of Engineering Thermodynamics, Fourth Edition, John Wiley & Sons Inc., New York, 2000. William C. Reynold & Henry C. Perkins, Engineering Thermodynamics, Edisi Ketiga, Airlangga, jakarta, 2000.
MATA KULIAH/ COURSE TITLE TM091333: MEKANIKA FLUIDA DASAR I TM091333: BASIC FLUID MECHANICS I
Credits: 2
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberikan pengertian dan pemahaman kepada mahasiswa tentang macam-macam fluida, ruang lingkup mekanika fluida, konsep-konsep dasar, statika fluida, serta pendekatan dengan mengembangkan pemodelan matematika dalam bentuk integral untuk volume atur, dan analisa dimensi, keserupaan, dan studi model, yang selanjutnya akan digunakan sebagai dasar untuk mempelajari mata kuliah Mekanika Fluida Dasar II. To provide the students with understanding in various fluids, scope of fluid mechanics, basic concepts, fluid statics, and mathematical modeling approach in integral form for a control volume, and understanding in dimensional analysis, similitude, and model study to gain a basic for pursuing next course: Fluid Mechanics II
KOMPETENSI/ COMPETENCY Mampu mendefinisikan fluida dan memahami konsep dasar fluida, mampu merumuskan kembali persamaan statika fluida, mampu menjelaskan hukum-hukum dasar didalam Mekanika fluida menggunakan konsep volume atur. Mampu menjabarkan metode analisa dimensi dan keserupaan. Mampu melakukan kerja di laboratorium (praktikum) dan melakukan analisa data Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Be able to define fluid and to understand basic concept of fluid, to derive formulation for fluid statics, be able to describe basic laws in fluid mechanics using control volume concepts. Be able to elaborate dimensional analysis method and similitude Understanding in doing lab. works and doing data analysis. The ability to raise questions, comments, and answering quetions, and teamwork.
POKOK BAHASAN/ SUBJECTS Definisi dan macam-macam fluida; pengetahuan tentang sistem dan volume atur, sistem dimensi dan satuan, konsep-konsep dasar mekanika fluida, fluida Newtonian dan Non-Newtonian, tegangan permukaan, statika fluida: hubungan tekanan dan ketinggian; gaya hidrostatik pada bidang persamaan-persamaan dasar dalam bentuk integral untuk volume atur, analisa dimensi, keserupaan, dan studi model. Fluid definition, various fluids, scope of fluid mechanics, system and control volume, dimension and units Basic concepts, Newtonian and Non-Newtonian fluid, surface tension Fluid statics: pressure-height relation, hydrostatic forces Mathematical modeling approach in integral form for a control volume, Dimensional analysis, similitude, and model study
PUSTAKA UTAMA/ REFERENCES Robert W. Fox, Alan T. McDonald, and P. J. Pritchard, Introduction to Fluid Mechanics", Sixth Edition, John Wiley & Sons Inc., New York, 2004. Bruce R. Munson, Donald F. Young, and Theodore H. Okiishi, Fundamentals of Fluid Mechanics, Third edition, John Wiley & Sons Inc., New York, 1998.
MATA KULIAH/ COURSE TITLE TM091334: MEKANIKA KEKUATAN MATERIAL TM091334: STRENGTH OF MATERIALS
Credits: 3
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa mengetahui tentang kekuatan dan kekakuan struktur statis tertentu dan tak tentu dengan material isotropis dan memiliki kemampuan untuk mentransformasikan tegangan-regangan 2D dan 3D secara analitis dan grafis, serta menguasai dan memilih teori kegagalan statis material sesuai dengan material yang digunakan, dan merumuskan defleksi dengan beberapa metode serta buckling. Students having the knowledge in the theory of strenght and the strenght of structural design with isotropic material and ability to transform 2D and 3D stress-strain in an analytical and graphical manner, as to mastering and choosing an appropriate static failure theory of materials based on the materials being used and to formulate deflection and buckling with few methods.
KOMPETENSI/ COMPETENCY Mampu mentransformasikan tegangan-regangan 2D dan 3D secara analitis dan grafis, serta menguasai dan memilih teori kegagalan statis material sesuai dengan material yang digunakan, dan merumuskan defleksi dengan beberapa metode serta buckling. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Students being able to transfom 2D and 3D stress-strain in an analytical and graphical manner as to mastering and choosing an appropriate static failure theory of materials based on the materials being used and to formulate deflection and buckling with few methods. Students are able to give questions, comments, answering questions and cooperate.
POKOK BAHASAN/ SUBJECTS Transformasi Tegangan dan Regangan 2D dan 3D Sifat Mekanik Material, Faktor Keamanan, Tegangan Ijin Material Teori-teori Kegagalan Statik 2D dan 3D Analisa Defleksi Statis Tertentu dan Tak Tentu (Integral Ganda) Analisa Defleksi statis tertentu dan tak tentu (Singularitas, luasan bidang momen, teori tiga momen, dan metode energi : virtual dan castigliano) Analisa Buckling 2D and 3D stress and strain transformations. mechanical properties of materials, safety factor, materials stress permit. 2D and 3D static failure theories. Analysis of statically determinate and indeterminate deflection (double integrals) Analysis of statically determinate and indeterminate deflection (Singularity, the area of the field moments, the theory of three moments, and energy methods: virtual and castigliano) Buckling analysis
PUSTAKA UTAMA/ REFERENCES Russell C. Hibbeler, Engineering Mechanics: Statics, Seventh Edition, Prentice Hall, 1995. J. L. Meriam and L. G. Kraige, Engineering Mechanics: Statics, Fourth Edition, John Willey and Sons, 1997. William F. Riley, Leroy D. Struges and Don H. Morris, Statics and Mechanics of Materials: An Integrated Approach, first Edition, Jhon Wiley and Sons, 1995.
MATA KULIAH/ COURSE TITLE TM091235: TEKNIK TENAGA LISTRIK TM091235: ELECTRICAL ENGINEERING
Credits: 2
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Agar mahasiswa mampu memahami energi & permasalahannya, mampu memahami prinsip dasar pembangkit tenaga listrik, dan mampu memahami fungsi bahan magnetik pada mesin listrik. That enable students to comprehend energy and its problems, able to comprehend the basic principles of power station and able to understand the function of the magnetic material in electrical machines.
KOMPETENSI/ COMPETENCY Mampu memahami prinsip dasar pembangkit tenaga listrik, dan mampu memahami fungsi bahan magnetik pada mesin listrik. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Able to understand the basic principles of power generation and able to understand the function of the magnetic material in electrical machines. Having the ability to ask, make comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Pengertian Energi dan permasalahan sumber energi dan energi listrik di Indonesia & dunia pada umumnya. Dasar-dasar Pembangkitan Tenaga Listrik Konvensional dan non Konvensional dan terbarukan, PLTA, PLTU, PLTGU, PLTN, PLTS, FUEL CELL, MHD, dll. Bahan magnetik dan rangkaian magnetik, kurva magnetisasi & histerisis, jenis-jenis bahan-bahan magnetik dan perkembangan-nya. Dasar-dasar konversi energi, prinsip generator dan motor listrik, hukum-hukumnya. Mesin arus searah, konstruksi, jenis belitan penguat, reaksi jangkar, proses komutasi. Generator arus searah, prinsip generator, terbangkitnya tegangan. Macam-macam jenis genarator DC dan rangkaian penggantinya & rumus-rumusnya. Motor arus searah, prinsip kerja maksimum, rangkaian pengganti dan rumus2nya. Karakteristik motor DC, pengaturan kecepatan. Transformator, prinsip kerja, autotransformator, transformator pengukuran, kerja paralel. Transformator 3 fasa, dasar rangkaian dan prinsip kerjanya. Mesin arus bolak balik, macam2nya satu fasa dan tiga fasa. Mesin sinkron, konstruksi dan jenisnya. Generator sinkron, prinsip terbangkitnya gaya gerak listrik. Generator sinkron berbeban, rugi tegangan, reaksi jangkar, diagram vektor dan kerja paralel. Motor sinkron, prinsip operasi, metode start, keadaan berbeban, rugi2 yang terjadi, daya yang dihasilkan motor. Motor induksi, prinsip kerja, terjadinya medan putar, karakteristik Torsi Kecepatan. Efisiensi pada motor induksi, pengaturan kecepatan, latihan dan tugas. Motor arus bolak balik satu fasa, jenis2nya dan prinsip kerjanya, motor induksi satu fasa, motor sinkron satu fasa, motor universal dan penggunaanya. Energy definition and problems of energy resources and electrical power in Indonesia and the world as general. Principles of conventional electricity generation and non-conventional and renewable, Hydroelectric Power Plant,Steam Power Plant, Combined Cycle Power Plant, Nuclear Power Plant, Solar Power Plant, Fuel Cell, MHD. Magnetic materials and magnetic circuits, magnetization curve and hysteresis, the types of magnetic materials and its development. The principles of energy conversion, the principles of the generator and electric motor, the law governing it. Direct current machines, construction, type of entanglement amplifier, anchor reaction, Commutation process. Direct current generator, the principle of the generator, voltage generation, the different types of DC generators and its circuit-replacement and the formulas. Direct current motor, the principle of maximum work, replacement circuits and formulas. Characteristics of DC motor, speed control. Transformator working principle, autotransformator, transformator measurement, working in parallel. Three phase transformators, basic circuit and working principles. Alternating current machines, types of single phase and three phase. Synchronous machines, construction and type. Synchronous generator, the principle of electromotive force generation. Synchronous load generator, voltage losses, anchor reaction, working in parallel and vector diagrams. Synchronous motors, operating principles, starting methods, loading conditions,losses produced, power produced by the motors. Induction motors, working principle, speed torque characteristics, occurence of rotating field. The efficiency of induction motor, speed control, exercises and tasks. Single phase alternating current motor, types and working principles, single phase induction motors, single phase synchronous motors, universal motors and its applications.
PUSTAKA UTAMA/ REFERENCES -
MATA KULIAH/ COURSE TITLE TM091336: KINEMATIKA MEKANISME TM091336: KINEMATICS OF MECHANISMS
Credits: 3
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberi kemampuan untuk menganalisa kecepatan dan percepatan gerak mekanisme, memberi pemahaman dan kemampuan untuk melakukan sintesa gerak mekanisme, dan memberi pengetahuan tentang aspek kinematika dari komponen mesin. Giving the ability to analyze the velocity and acceleration of a motion mechanism, giving understanding and ability to synthesize the mechanisms of motion, and provide knowledge about aspects of kinematics of the machine components.
KOMPETENSI/ COMPETENCY Mampu menganalisa kecepatan dan percepatan gerak mekanisme, memberi pemahaman dan kemampuan untuk melakukan sintesa gerak mekanisme, dan memberi pengetahuan tentang aspek kinematika dari komponen mesin. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Able to analyze velocity and acceleration of a motion mechanism, giving understanding and ability to synthesize the mechanisms of motion, and provide knowledge about aspects of kinematics of the machine components. Having the ability to ask , make comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Pengertian dasar dan terminologi Kinematika partikel dan Mekanisme Kecepatan: kecepatan relatif, analisa grafis, titik bantu, IC I pole, centrode, analisa analitis Percepatan: Percepatan relatif, analisa grafis, titik bantu, Percepatan Coriolis, analisa analitis Fenomena rolling dan Mekanisme ekuivalen Kinematika mekanisme cam dan Kinematika gear train Sintesa grafis dan linkage, Function, path, or motion generator, Sintesa dimensional, kurva coupler, Sintesa analitis, Metoda Freudenstein Basic understanding and terminology of particle kinematics and mechanisms. Velocity: relative velocity, graphic analysis, auxiliary point, IC I pole, centrode, analytical analysis. Acceleration: relative acceleration, graphic analysis, auxiliary point, Coriolis acceleration, analytical analysis. The phenomenon of rolling and equivalent mechanism. Cam kinematics mechanism and gear train kinematics. Graphics and linkage synthesis, function,path, motion generator, dimensional synthesis, coupler curve, analytical synthesis, Freudenstein metode.
PUSTAKA UTAMA/ REFERENCES Norton, Robert L., Design of Machinery, 3rd ed., McGraw-Hill, New York, 2004. Waldron, Kenneth L., and G.L. Kinzel, Kinematics, Dynamics, and Design of Machinery, John Wiley & Sons, New York, 1999. Holowenko, A.R., Dynamics of Machinery, John Wiley & Sons, New York, 1995. Kimbrell, Jack T., Kinematics Analysis and Synthesis, McGraw-Hill, New York, 1991.
MATA KULIAH/ COURSE TITLE TM091337: PENGETAHUAN BAHAN TEKNIK TM091337: ENGINEERING MATERIAL SCIENCE
Credits: 3
Semester: III
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Agar mahasiswa mengenal dan mengerti material teknik, terutama sifat mekanik dan pengujiannya, sebagai dasar untuk pemilihan material. The students be able to identify and understand engineering materials, especially mechanical properties and its testing, as a basis for material selection.
KOMPETENSI/ COMPETENCY Mampu mengenal dan mengerti material teknik, terutama sifat mekanik dan pengujiannya, sebagai dasar untuk pemilihan material. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Able to identify and understand engineering materials, especially mechanical properties and its testing, as a basis for material selection. Having the ability to ask , make comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Sifat mekanik dan pengujiannya (Destructive Test) Non Destructive Test (NDT) Pengetahuan tentang besi dan baja (pembuatannya, jenis, sifat dan penggunaannya) Paduan Non Ferous Bahan Non Logam Mechanical properties and its testing (destructive testing) Non Destructive Test (NDT) Knowledge related with iron and steel ( production, type, nature, and applications). Non-ferrous alloys Non-metallic materials
PUSTAKA UTAMA/ REFERENCES Avner, Sidney H., Introduction to Physical Metallurgy, Second Edition, McGraw-Hill International Book Company, Tokyo. Marin, Joseph, Mechanical Behavior of Engineering Material, Prentice Hall of India (Private) Ltd, New Delhi. Schlenker, B.R. Introduction to Materials Science, SI Edition, John Wiley & Sons Australia, Sidney. American Society for Metals, ASM Metals handbook, volume 11, Non Destructive Testing.
MATA KULIAH/ COURSE TITLE TM091241: MATEMATIKA REKAYASA II TM091241: ENGINEERING MATHEMATICS II
Credits: 2
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mengerti dan memahami integral garis, konvergensi barisan dan deret fungsi, deret Fourier. Understand and apprehend the lines integral, convergence array and array functions, Fourier array.
KOMPETENSI/ COMPETENCY Mampu memahami integral garis, konvergensi barisan dan deret fungsi, deret Fourier. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Able to understand line integral, convergence array and array functions, Fourier array. Having the ability to ask , make comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Integral garis, teorema Green, bebas lintasan, barisan dan deret fungsi, integral tak wajar, tes konvergenan, integral tak wajar yang memuat parameter, deret fourier, deret sinus, dan cosinus fourier, deret fourier pada selang sembarang, integral Fourier. Lines integral, Greens theorm, free trajectories, Array and array functions , unnatural integral, konvergenan test, unnatural integral which contains parameter, Fourier array, sinus array, Fourier cosine, Fourier series on an arbitrary interval, the Fourier integral.
PUSTAKA UTAMA/ REFERENCES Kreyzig, Advanced Engineering Mathematics, 7th, Ed. John Wiley & Sons, 1993. Kaplan, Advanced Calculus, 1st Ed, Addison Wesley Publishing Company, Inc. 1952.
MATA KULIAH/ COURSE TITLE TM091342: TERMODINAMIKA II TM091342: THERMODYNAMICS II
Credits: 2
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberikan gambaran kepada mahasiswa mengenai daur proses termodinamika, yang terdiri dari daur pembangkit daya, daur pendinginan serta daur pompa termal. Gambaran yang dimaksud terkait dengan prinsip kerja masing-masing komponen serta indikator kinerja daur. Juga untuk memberikan pemahaman mengenai hubungan properti termodinamika yang terdiri dari campuran tak bereaksi, campuran bereaksi, larutan serta kesetimbangan fase dan kimia. The students have understanding about principle of thermodynamic proccess for analysis of power plant system, refrigeration and heat pump. This includes the basic working principles of components and cycle performance. It is also intende to provide understanding on thermodynamic property relationship for non-reacting mixtures, reacting mixtures, solution, and phase and chemical equilibrium.
KOMPETENSI/ COMPETENCY Mampu memahami daur proses termodinamika dan hubungan properti termodinamika Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Be able to understand about principle of thermodynamic proccess thermodynamic property relationship Understanding in doing lab. works and doing data analysis. The ability to raise questions, comments, and answering quetions, and teamwork.
POKOK BAHASAN/ SUBJECTS Daur pembangkit daya, daur pendinginan serta daur pompa termal. Daur pembangkit daya dengan fluida kerja gas: sistem pembakaran dalam (internal combustion engine) serta sistem pembakaran luar (turbin gas). Daur Otto udara standard, daur diesel udara standard serta daur dual udara standard, daur Brayton udara standard, daur Brayton dengan regeneratif memakai reheat dan intercooling, serta sistem gabungan gas uap. Daur pendinginan dan pompa termal: properties refrigerant, sistem pendinginan kompresi uap sederhana, multi stage serta pendinginan absorpsi. Hubungan properti termodinamika: persamaan keadaan, pengembangan hubungan properti termodinamika untuk campuran gas ideal dan dan psychrometrik. Campuran dan Kesetimbangan fase dan kimia Power plant cycle, refrigeration and themal pump cycles. Power plant cycle using gas as fluid medium: internal combustion engine and external combustion engine (gas turbines) Standard air Otto cycle and Diesel cycles, Brayton standard air cycle and regenerative cycle using reheat and intercooling, combine cycle of gas and vapor. Refrigeration and themal pump cycles: Refrigerant properties, simple vapor compression cycle, multi stage and absoption refrigeration system. Thermodynamic property relation: equation of state, expansion of thermodynamic properties for ideal gas, psychrometric chart. Mixture and phase and chemical equilbrium
PUSTAKA UTAMA/ REFERENCES Moran, J Michael and Howard N. Saphiro, Fundamental of Engineering Thermodynamics, Fifth Edition, John Wiley & Sons Inc., New York, 2006. Smith, J.M., Van Ness, H.C., and Abbott, M.H., Introduction to chemical Engineering Thermodynamics , Fifth Edition, McGraw-Hill, New York, 1996.
MATA KULIAH/ COURSE TITLE TM091343: MEKANIKA FLUIDA DASAR II TM091343: BASIC FLUID MECHANICS II
Credits: 3
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberikan pengertian dan pemahaman kepada mahasiswa tentang pendekatan dengan mengembangkan pemodelan matematika dalam bentuk differensial untuk gerakan fluida, aliran tak kental dan tak termampatkan, berbagai aspek aliran kental untuk aliran internal dan aliran eksternal, serta cara-cara pengukuran aliran, sehingga mahasiswa dapat memecahkan berbagai persoalan mekanika fluida, khususnya mekanika fluida aliran tak termampatkan, yang selanjutnya dapat digunakan untuk mengikuti kuliah mata kuliah Pilihan Bidang Studi. To provide the students with understanding of mathematic modeling in differential form for fluid motion, inviscid incompressible flow, various aspects in viscous internal and external flows, and flow measurement with the purpose that the student can solve fluid mechanic problems, especially fluid mechanics in incompressible flow. This is the basic for some elective courses.
KOMPETENSI/ COMPETENCY Mampu memahami pemodelan matematika dalam bentuk differensial untuk gerakan fluida, aliran tak kental dan tak termampatkan, berbagai aspek aliran kental untuk aliran internal dan aliran eksternal, serta cara-cara pengukuran aliran Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Understanding of mathematic modeling in differential form for fluid motion, inviscid incompressible flow, various aspects in viscous internal and external flows, and flow measurement Understanding in doing lab. works and doing data analysis. The ability to raise questions, comments, and answering quetions, and teamwork
POKOK BAHASAN/ SUBJECTS Pemodelan matematika dalam bentuk differensial untuk gerakan fluida, rotasi dan deformasi fluida, stream function dan irrotational flow, aliran tak mempunyai kekentalan (inviscid) dan tak termampatkan (incompressible), analisa aliran viscous (kental) dan incompressible untuk aliran internal dan eksternal, analisa pipa-pipa seri, paralel, bercabang dan jaringan pipa, lapis batas, pengaruh aliran terhadap benda-benda yang berada di dalam aliran, pengukuran aliran. Mathematic modeling in differential form for fluid motion, fluid rotation and deformation, stream function and irrotational flow. Inviscid incompressible flow Internal and external viscous incompressible flows Analysis of series, parallel, branch and network piping system. Boundary layer, flow about immersed body, and flow measurements.
PUSTAKA UTAMA/ REFERENCES Robert W. Fox, Alan T. McDonald, and P. J. Pritchard, Introduction to Fluid Mechanics", Sixth Edition, John Wiley & Sons Inc., New York, 2004. Robert W. Fox, and Alan T. McDonald, Introduction to Fluid Mechanics", Fifth Edition, John Wiley & Sons Inc., New York, 1998. Irving H. Shames, Mechanics of Fluids, Third Edition, McGraw-Hill Inc, New York, 1992. V. L. Streeter and E. B. Wylie, Fluid Mechanics, Seventh Edition, McGraw-Hill Inc, New York, 1981 Bruce R. Munson, Donald F. Young, and Theodore H. Okiishi, Fundamentals of Fluid Mechanics, Third edition, John Wiley & Sons Inc., New York, 1998.
MATA KULIAH/ COURSE TITLE TM091344: PROSES MANUFAKTUR I TM091344: MANUFACTURING TECHNOLOGY I
Credits: 3
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mengenal dan memahami proses-proses pembuatan produk yang umum dipakai di industri manufaktur. Penentuan dan pemilihan parameter proses manufaktur sehingga mampu menganalisa dan merancang proses pembuatan produk. Identifies and apprehend the processes of manufacture of products commonly used in the manufacturing industry. Determination and selection of manufacturing process parameters so as to analyze and design the product creation process.
KOMPETENSI/ COMPETENCY Mampu memahami proses-proses pembuatan produk yang umum dipakai di industri manufaktur, penentuan dan pemilihan parameter proses manufaktur sehingga mampu menganalisa dan merancang proses pembuatan produk. Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Ability to understand the processes of manufacture of products commonly used in the manufacturing industry, the determination and selection of manufacturing process parameters so as to analyze and design the product creation process. Students are able to conduct experiments and analyze its results. Having the ability to ask questions, give comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Proses pemesinan: proses bubut, milling, gerinda dan drilling. Proses pembentukan: proses bending, forging, rolling, drawing, extrusion dan sheet metal forming pembuatan produk dengan proses powder metalurgi. Engineering process: the process of lathe, milling, grinding and drilling. Formation process: the process of bending, forging, rolling, drawing, Extrusion and sheet metal forming. the manufacture of products by powder metallurgy process.
PUSTAKA UTAMA/ REFERENCES Kalpakjian, Serope and Schmid, Steven R., Manufacturing Processes for Engineering Materials, 4th Ed, Prentice Hall, 2003. Schey, John A., Introduction to Manufacturing Processes, 3rd Ed, Mc Graw-Hill, 2000. De Garmo, Paul E., Materials and Processes in Manufacturing, 7th Ed, Mac Millan Publishing Co, New York, 1988.
MATA KULIAH/ COURSE TITLE TM091345: ELEMEN MESIN I TM091345: MACHINE ELEMENTS I
Credits: 3
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberi pengertian tentang Konsep Perancangan Elemen Mesin, merancang gerakan/kinematika dan ukuran Elemen Mesin serta menganalisa kekuatan materialnya. Give the notion of Machine Elements Design Concept, motion design / kinematics and designing the size of machine elements and analyze the strength of its material.
KOMPETENSI/ COMPETENCY Mampu memahami Perancangan Elemen Mesin, merancang gerakan/kinematika dan ukuran Elemen Mesin serta menganalisa kekuatan materialnya. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Ability to apprehend the design of machine elements, motion design/ kinematics and designing the size of machine elements and analyze the strength of its material. Having the ability to ask questions, give comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Konsep Perancangan dan Rekayasa Elemen Mesin Tinjauan Ulang tentang Beban, Tegangan, Sifat Mekanik Statik Material Teori-teori Kegagalan Beban Statik Analisa Elemen-elemen Sambungan (Keling, Las, Baut dan mur) dan Pegas Transmisi Daya dan Putaran, Kopling Tetap dan Kopling Tidak Tetap/Clutch, Rem/Brake, Sabuk/Belt (Flat Belt, V-Belt dan Timing Belt), dan Rantai/Chain. Design Concept and Engineering Machine Elements. Review on load, stress, static mechanical properties of materials. Failure Theories of Static Load. Analysis of joint elements (welding, bolts, nuts) and spring. Power transmission and rotation, fixed clutch and unfixed clutch, brake, belt (Flat Belt, V-Belt dan Timing Belt) and chain.
PUSTAKA UTAMA/ REFERENCES Deutschman, Aaron D., Machine Design, Theory and Practice, Collier Mac millan, International Edition., London 2007. Shigley, Joseph E., Mechanical Engineering Design, 5th Edition, Mc Graw Hill 2001. Spotts, M. F., Design of Machines Elements., Prentice Hall Inc. Dobrovolsky, V., Machine Elements, Peace Publisher.
MATA KULIAH/ COURSE TITLE TM091346: DINAMIKA TEKNIK TM091346: DYNAMICS
Credits: 3
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberi kemampuan untuk menganalisa dinamika gerak, yang meliputi: prinsip Newton, prinsip energi, prinsip momentum, Memberi kemampuan untuk menganalisa gaya pada mekanisme, memberi pengetahuan tentang flywheel dan balancing, dan memberi pengetahuan tentang dasar-dasar dinamika spasial Gives the ability to analyze the dynamics of motion, which include: the principle of Newton, energy principles, momentum principles, giving the ability to analyze the forces on the mechanisms, giving the knowledge of flywheel and balancing, and provide knowledge about the fundamentals of spatial dynamics
KOMPETENSI/ COMPETENCY Mampu menganalisa dinamika gerak, gaya pada mekanisme, dan mampu memahami dan menganalisa mekanisme flywheel dan balancing dan dasar-dasar dinamika spasial Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama Ability to analyze the dynamics of motion, force on the mechanisms and able to apprehend and analyze the flywheel and balancing mechanisms and the basis of spatial dynamics. Having the ability to ask questions, give comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Konsep dasar, dinamika partikel, dan hukum Newton prinsip kerja dan energi; prinsip impuls dan momentum Dinamika rigid body Analisa gaya statik pada mekanisme, metoda grafis Analisa gaya inersia pada mekanisme Prinsip dAlembert Analisa flywheel, Balancing, massa berputar, dan massa bergerak bolak-balik (reciprocating) Basic concept, particle dynamics and Newtons Law. The principles of work and energy; the principles of impuls and momentum. Rigid body dynamics. Analysis of static force on the mechanisms, graphical method. Analysis of the inertial forces on the mechanisms. DAlemberts principles. flywheel analysis, balancing, spinning mass,reciprocating mass.
PUSTAKA UTAMA/ REFERENCES Hibbeler, Russell C., Engineering Mechanics : Dynamics, 10th ed., Prentice Hall, Upper Saddle River, N.J., 2004. Meriam, James L., and L.G. Kraige, Engineering Mechanics : Dynamics, 5th ed., John Wiley & Sons, New York, 2003. Beer, Ferdinand P., E.R. Johnston, Jr., and W.E. Clausen, Vector Mechanics for Engineers : Dynamics, 7th ed., McGraw-Hill, New York, 2004. Norton, Robert L., Design of Machinery, 3rd ed., McGraw-Hill, New York, 2004. Holowenko, A.R., Dynamics of Machinery, John Wiley & Sons, New York, 1995
MATA KULIAH/ COURSE TITLE TM091347: METALURGI TM091347: METALLURGY
Credits: 3
Semester: IV
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Agar mahasiswa dapat menjelaskan hubungan antara struktur mikro logam dengan sifat mekanik serta memahami mekanisme penguatan dan dapat menentukan cara modifikasinya dengan perlakuan panas, sesuai dengan tujuan pemakaian. In order that students are able to explain the relationship between microstructure and mechanical properties of metals and apprehend the strengthening mechanisms and can determine the modification process by heat treatment, in accordance with the purpose of usage.
KOMPETENSI/ COMPETENCY Mampu menjelaskan hubungan antara struktur mikro logam dengan sifat mekanik serta memahami mekanisme penguatan dan dapat menentukan cara modifikasinya dengan perlakuan panas. Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Students are able to explain the relationship between microstructure and mechanical properties of metals and apprehend the strengthening mechanisms and can determine the modification process by heat treatment, in accordance with the purpose of usage. Students are able to conduct experiments and analyze its results. Having the ability to ask questions, give comments, answer questions and cooperation.
POKOK BAHASAN/ SUBJECTS Struktur kristal dan paduan Mekanisme deformasi dan rekristalisasi Diagram kesetimbangan fase paduan binaire, Diagram fase besi karbida besi, dan Diagram transformasi (IT-CCT) baja Proses perlakuan panas baja The structure of crystals and alloys Deformation mechanisms and recrystallization Equilibrium phase diagram binaire alloys, iron carbide phase diagram of iron, and diagrams of transformation (IT-CCT) steel
PUSTAKA UTAMA/ REFERENCES Avner, Sidney H., Introduction to Physical Metallurgy, Second Edition, McGraw-Hill International Book Company, Tokyo. Clark, Donald S., Varney, Wilbur R., Physical Metallurgy for Engineers, Brooks/Cole Engineering Division, Monterey, California. Thelning, Karl Erik, Steel and its Heat Treatment, Second Edition, Butterworths, London. Higgins, Raymond A., Engineering Metallurgy, part 1, Fifth Edition, Hodder and Stoughton, London.
MATA KULIAH/ COURSE TITLE TM091351: PERPINDAHAN PANAS TM091351: HEAT TRANSFER
Credits: 4
Semester: V
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Memberikan pengertian dan pemahaman tentang Konsep dan Fisik Perpindahan Panas secara umum. Mampu menganalisa perpindahan panas konduksi satu dimensi tanpa atau dengan energi bangkitan serta extended surface untuk proses steady maupun trancient. Konduksi dua dimensi baik grafis maupun numerik. Disamping itu mahasiswa mampu memahami perpindahan panas dan massa secara konveksi baik aliran dalam maupun luar. Konsep serta fisik mengenai perpindahan panas konveksi pada aliran yang berubah fase boiling dan kondensasi serta mampu merancang peralatan penukar panas. To provide understanding to the students about concept and physics of heat transfers, so that the students be able to analyze one dimension conduction heat transfer, with and without energy generation, extended surface for steady and transient conduction. To provide the understanding of two dimensional conduction, graphical and numerical. Also to provide the understanding of convection heat and mass transfer in internal and external flows. It is also intended to provide the students the knowledge of physical concepts in convection heat transfer with phase changes (boiling and condensation) and the ability to design heat exchanger equipment.
KOMPETENSI/ COMPETENCY Mampu memahami konsep dan Fisik Perpindahan Panas secara umum: konduksi, konveksi, dan radiasi, serta perpindahan panas pada proses boiling dan kondensasi, dan perpindahan panas konveksi. Mahasiswa mampu melakukan praktikum dan menganalisis hasilnya Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Be able to understand of physical concepts of heat transfer in general including conduction, convection, and radiation, and the heat transfer consisting boiling and condensation, and convection mass transfer. Understanding in doing lab. works and doing data analysis. The ability to raise questions, comments, and answering quetions, and teamwork
POKOK BAHASAN/ SUBJECTS Konsep perpindahan panas secara umum yaitu: konduksi, konveksi, dan radiasi. Konsep dan pengertian fisik perpindahan panas konduksi satu dan dua dimensi untuk sistim koordinat Cartesian dan Radial. Konsep tahanan thermal, konduksi dengan energi bangkitan, permukaan yang diperluas, tunak, serta perpindahan panas konduksi dengan proses transien. Konsep perpindahan panas secara radiasi, intensitas, absorpsi-refleksi-transmisi permukaan, radiasi antar permukaan, gas radiation. Perpindahan panas dan massa secara konveksi baik aliran luar maupun dalam pada daerah laminar, transisi, dan turbulen. Proses perpindahan panas secara konveksi untuk aliran yang berubah fase: pool boiling dan film boiling serta kondensasi film dan tetes. Analisa dan perancangan alat penukar panas baik secara perbedaan temperatur rerata logaritmik maupun dengan NTU, analisa alat penukar panas yang kompak. Proses perpindahan panas secara konveksi yang alami untuk aliran diluar plat datar-vertikal, silinder, maupun aliran didalam enclosure dan channel. Concepts of heat transfer in general including conduction, convection, and radiation. Concepts of conduction heat transfer, 1- and 2-dimension, in Cartesian and Radial coordinate systems. Thermal resistance concept, conduction with energy generation, extended surfaces, steady and transient heat conduction process. Concepts of radiation heat transfer, intensity, surface absorption-reflextion-transimission, radiation between surfaces, gas radiation. Convection Heat and mass transfer in internal and external flows, laminar, transition, and turbulent flows. Convection heat transfer with phase changes: pool and film boiling, film and drop condensation. Heat exchanger analysis and design using log-mean temperature difference and NTU, analysis of compact heat exchanger. Natural concevtion heat transfer for vertical and horizontal plates, cylinder, flow in an enclosure and channels.
PUSTAKA UTAMA/ REFERENCES Incropera, Frank P., and David P. De Witt, Fundamental of Heat and Mass Transfer, 6th ed, John Wiley and Sons, New York, 2001. Holman, J.P., Heat Transfer, 9th Ed, Mc Graw-Hill Inc, New York, 2002. Cengel, Y.A., Heat Transfer, McGraw-Hill, 1998. Adrian Bejan, Heat Transfer, John Wiley and Sons, New York, 1993.
MATA KULIAH/ COURSE TITLE TM091252: STATISTIKA TM091252: STATISTICS
Credits: 3
Semester: V
TUJUAN PEMBELAJARAN/ LEARNING OBJECTIVES Mahasiswa diharapkan mempunyai kemampuan dalam hal: (i) menguji parameter satu dan 2 populasi serta dapat membuat model hubungan 2 variabel (Hardskill), dan mampu berkomunikasi secara lisan, tertulis serta kerja sama (Softskill). The students will have ability in: (i) testing for one and two population parameters and be able to generate a model that relates two variables; (ii) oral and written communication and team work.
KOMPETENSI/ COMPETENCY Mampu menampilkan data secara deskriptif dan menginter-pretasikannya. Mampu mengidentifikasi dan menghitung peluang kejadian berdasarkan distribusi khusus baik diskrit dan kontinyu. Mampu menguji rata-rata, varians dan proporsi satu dan 2 populasi. Mampu menguji independensi 2 variabel kualitatif. Mampu membuat model hubungan 2 variabel kuantitatif. Mempunyai kemampuan bertanya, dapat memberi komentar, menjawab pertanyaan dan kerjasama. Be able to show data descriptively and make their interpretation. Be able to identify and calculate chance of events based on special distribution, either discrete or continuous Be able to test mean, variance, and proportion for one and two populations Be able to test independence of two qualitative variables Be able to generate a model th
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