Kode Mata KuliahFI5004 / 3 SKS
Penyelenggara202 - Fisika / FMIPA
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahMekanika StatistikStatistical Mechanics
Bahan Kajian
  1. Dasar-dasar teori kinetik: perumusan persamaan transport Boltzmann, dalil H Boltzmann dan analisisnya, gejala transport, hukum kekekalan, solusi dan penerapannya.
  2. Teori Ensemble: mikrokanonik, kanonik dan kanonik besar, fungsi partisi. Penerapan pada sistem ideal klasik.
  3. Mekanika statistik kuantum: Sistem Fermi dan sistem Bose.
  4. Penanganan sistem dengan interaksi lemah menggunakan metode aproksimasi: gugus Mayer, gas real.
  5. Penanganan sistem dengan interaksi kuat: model Ising, berbagai metode aproksimasi (mean field) dan metode eksak (transfer matrix), transisi fasa contohnya di paramagnetik-feromagnetik, gas kisi, spin glass dan jaringan neural.
  1. Basics of kinetic theory: formulation of the Boltzmann transport equation, Boltzmann's H postulate and its analysis, transport phenomena, conservation laws, solutions and applications.
  2. Ensemble theory: microcanonical, canonical and grand canonical, partition functions. Application to classical ideal systems.
  3. Quantum statistical mechanics: Fermi system and Bose system.
  4. Handling systems with weak interactions using approximation methods: Mayer groups, real gases.
  5. Handling of systems with strong interactions: Ising model, various approximation methods (mean field) and exact methods (transfer matrix), phase transitions for example in paramagnetic-ferromagnetic, lattice gas, spin glass and neural networks.
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa memahami dasar-dasar teori kinetik, perumusan persamaan transport Boltzmann, dalil H Boltzmann dan analysisnya, gejala transport, hukum kekekalan, solusi dan penerapannya
  2. Mahasiswa memahami konsep ensembel dan menggunakannya pada gas ideal
  3. Mahasiswa memahami sistem gas ideal yang memenuhi statistik Fermi dan statistik Bose
  4. Mahasiswa memahami gugus Mayer, gas real, sistem Fermi dan sistem Bose
  5. Mahasiswa memahami Topik Khusus: model Ising, berbagai metoda aproksimasi dan metoda eksak, transisi fasa paramagnetik-feromagnetik, gas kisi, spin glass dan jaringan neural
  1. Students understand the basics of kinetic theory, the formulation of the Boltzmann transport equation, Boltzmann's H postulate and its analysis, transport phenomena, conservation laws, solutions and their applications
  2. Students understand the concept of ensembles and use them on ideal gases
  3. Students understand the ideal gas system that satisfies Fermi statistics and Bose statistics
  4. Students understand Mayer groups, real gases, the Fermi system and the Bose system
  5. Students understand Special Topics: Ising model, various approximation methods and exact methods, paramagnetic-ferromagnetic phase transitions, lattice gases, spin glass and neural networks
Metode PembelajaranCeramah, diskusi kelompok.Lectures, group discussions.
Modalitas PembelajaranLuring Sinkron, Bauran/Daring AsinkronSynchronous Offline, Asynchronous Mixed/Online
Jenis NilaiABCDE
Metode PenilaianUTS, UAS, Tugas dan KuisUTS, UAS, Assignments and Quizzes
Catatan TambahanMKWPMKWP