Kode Mata Kuliah | AE2204 / 3 SKS |
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Penyelenggara | 136 - Teknik Dirgantara / FTMD |
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Kategori | Kuliah |
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| Bahasa Indonesia | English |
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Nama Mata Kuliah | Sistem Dinamik | Dynamic System |
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Bahan Kajian | - Review Linear dan Angular Momentum
- Sistem TAK dan Transformasinya, Principal Axes
- Transformasi Inersia Tensor
- Persamaan Gerak Benda Kaku di Ruang 3D
- Gerak Giroskopik
- Prinsip Kerja, Energi Kinetik, dan Energi Potensial
- Persamaan Lagrange
- Sistem Dinamik non-linier
- Prinsip Linearisasi
- Model sistem linear, state space, dan fungsi transfer
- Analisis karakteristik sistem linear
- Contoh model sistem linear pada sistem dirgantara
| - Linear and Angular Momentum Review
- Coordinate Reference Systems and Their Transformations, Principal Axes
- Tensor Inertia Transform
- Equations of Motion of Rigid Bodies in 3D Space
- Gyroscopic Motion
- Principles of Work, Kinetic Energy, and Potential Energy
- Lagrange's equation
- Non-linear Dynamic Systems
- Principle of Linearization
- Linear system models, state spaces, and transfer functions
- Analysis of linear system characteristics
- Examples of a linear system models in aerospace systems
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Capaian Pembelajaran Mata Kuliah (CPMK) | - Melakukan transformasi koordinat dalam ruang 3 dimensi.
- Melakukan pemodelan, penyusunan persamaan gerak, dan analisa dinamika benda kaku pada ruang 3 dimensi dengan metode Newton dan metode energi.
- Melakukan analisis kuantitatif gerak giroskopik.
- Melakukan analisis dasar pada sistem dinamik non-linier.
- Melakukan proses linierisasi, membentuk model linier dalam formulasi state-space dan fungsi transfer, dan melakukan analisis karakteristik sistem dinamik linier.
- Memahami implementasi model dinamik linier pada aplikasi dirgantara.
| - Perform coordinate transformations in three-dimensional space.
- Model, formulate equations of motion, and analyze the dynamics of rigid bodies in three-dimensional space using Newton's method and the energy method.
- Conduct quantitative analysis of gyroscopic motion.
- Perform basic analysis of non-linear dynamic systems.
- Carry out the process of linearization, develop linear models in state-space formulation and transfer functions, and analyze the characteristics of linear dynamic systems.
- Understand the implementation of linear dynamic models in aerospace applications.
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Metode Pembelajaran | Kuliah Tatap Muka, Tutorial | |
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Modalitas Pembelajaran | Luring, Sinkron | |
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Jenis Nilai | ABCDE |
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Metode Penilaian | PR, Tutorial/Quiz, Ujian Tengah Semester 1, Ujian Tengah Semester 2, Ujian Akhir Semester | |
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Catatan Tambahan | | |
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