| Kode Mata Kuliah | MS2203 / 4 SKS |
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| Penyelenggara | 131 - Mechanical Engineering / FTMD |
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| Kategori | Lecture |
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| Bahasa Indonesia | English |
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| Nama Mata Kuliah | Mekanika Fluida | Fluid Mechanics |
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| Bahan Kajian | - Konsep kontinum dan sifat fluida
- Gaya dan momen fluida : statika fluida
- Kinematika fluida
- Analisis integral hukum kekekalan : massa, momentum (linear dan angular), energi, hukum ke-2 termodinamika serta aplikasinya
- Analisis diferensial hukum kekekalan: masa, momentum (linier dan angular), energi. Asumsi aliran invisid dan potensial
- Analisis dimensional dan kesebangunan
- Pengenalan aliran turbulen di dekat permukaan
- Aliran viskos di dalam pipa dan saluran
- Aliran external: aliran potensial, lapisan batas, dan aliran lepas
- Aliran pada mesin-mesin turbo
- Aliran kompresibel isentropik 1D dan quasi 1D
- Gelombang pada aliran kompresibel: gelombang kejut dan ekspansi
| - Continuum concept and fluid properties
- Fluid forces and moments: fluid statics
- Fluid kinematics
- Integral analysis of conservation laws: mass, linear and angular momentum, energy, second law of thermodynamics, and their applications
- Differential analysis of conservation laws: mass, linear and angular momentum, and energy. Inviscid and potential flow assumptions
- Dimensional analysis and similarity
- Introduction to turbulent flow near solid boundaries
- Viscous flow in pipes and ducts
- External flow: potential flow, boundary layers, and flow separation
- Flow in turbomachinery
- Flow in turbomachinery
- Waves in compressible flow: shock waves and expansion waves
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa memahami dan mampu melakukan analisis dasar mekanika fluida: integral, diferensial, analisis dimensional.
- Mahasiswa mampu melakukan setup pemodelan untuk menyelesaikan permasalahan mekanika fluida sederhana secara analitik, maupun permasalahan lebih kompleks secara numerik
- Mahasiswa mampu menerapkan teknik analisis fluida dalam menyelesaikan permasalahan sederhana di bidang rekayasa.
- Mahasiswa paham bagaimana menerapkan konsep fundamental untuk penyelesaian permasalahan mekanika fluida yang lebih kompleks
| - Students understand and are able to perform fundamental fluid mechanics analyses, including integral and differential approaches as well as dimensional analysis.
- Students are able to set up modeling approaches to solve basic fluid mechanics problems analytically, and more complex problems using numerical methods.
- Students are able to apply fluid analysis techniques to solve basic engineering problems.
- Students understand how to apply fundamental concepts to solve more advanced or complex fluid mechanics problems.
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| Metode Pembelajaran | Tatap muka di kelas, tutorial dengan metode tugas kelompok dan presentasi | Face-to-face class, tutorial, group discussion, presentation |
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| Modalitas Pembelajaran | Luring, Sinkron, Mandiri | Offline, synchronous, independent |
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| Jenis Nilai | ABCDE |
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| Metode Penilaian | Tugas, Quiz, Tutorial, UTS, UAS | Assignment, quiz, tutorial, Midterm exam, Final exam |
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| Catatan Tambahan | | |
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