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COMPUTATIONAL PHYSICS

COMPUTATIONAL PHYSICS. PUGUH HISKIAWAN LECTURER OF THE PHYSICS DEPARTMENT. LECTURE CONTRACT. Lecture Days : Tuesday, 07.00 – 08.30 WIB Thursday, 07.00 – 08.30 WIB Lecture Room : Ruang Kuliah SCL Attendance : Fulfill max 75 % from 32 lectures.

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COMPUTATIONAL PHYSICS

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  1. COMPUTATIONAL PHYSICS PUGUH HISKIAWAN LECTURER OF THE PHYSICS DEPARTMENT

  2. LECTURE CONTRACT • Lecture Days : • Tuesday, 07.00 – 08.30 WIB • Thursday, 07.00 – 08.30 WIB • Lecture Room : • RuangKuliah SCL • Attendance : • Fulfill max 75 % from 32 lectures. • Limit of tolerance either lecturer or student for possible delay about 15 minutes.

  3. LECTURE CONTRACT • Assessments : • Theory 75 % • TASK (e- learning) --- 15 % • MID --- 40 % • FINAL TEST --- 40 % • Attendance --- 5 % • Experiment 25 %

  4. LECTURE CONTRACT • Handbook References for lecture :

  5. LECTURE CONTRACT • Software :

  6. LECTURE CONTRACT • Chapter by Chapter: • PENDAHULUAN ---- 2 TM • 1.1. AlgoritmaPemograman • 1.2. Pemrograman MATLAB • 1.2.1. Pengaturanruang MATLAB • 1.2.2. Operasi Array • 1.2.3. OperasiMatriks • 1.2.4. OperasiRelasidanLogika • 1.2.5. KarakterTeksdanWaktu • 1.2.6. Fungsi M-File • 1.2.7. GrafikDuaDimensi • 1.2.7. GrafikTigaDimensi • PraktikumModul I

  7. LECTURE CONTRACT • Chapter by Chapter: • PENGANTAR KOMPUTASI NUMERIK - 2 TM • 2.1. PemodelanNumerik • 2.1.1. Model Matematika • 2.1.2. PendekatandanPembulatan • 2.1.3. Derettaylor • 2.1.4. PresentasiBilanganMatematika • 2.2. AnalisisGalatatauKesalahan • 2.2.1. KesalahanHampiran • 2.2.2. KesalahanRambatan

  8. LECTURE CONTRACT • Chapter by Chapter: • SISTEM PERSAMAAN LINEAR - 4 TM • 3.1. NotasiMatriks • 3.2. MetodeEliminasi Gauss • 3.3. Metode Gauss-Jordan • 3.4. MetodeInversMatriks • 3.5. Determinan • 3.6. Dekomposisi (Faktorisasi) LU • 3.7. MetodeIterasi Jacobi • 3.8. Iterasi Gauss-Seidel • 3.9. Metode SOR (Successive Over-Relaxation) • PraktikumModul II

  9. LECTURE CONTRACT • Chapter by Chapter: • SISTEM PERSAMAAN NON LINEAR - 4 TM • 4.1. MetodeRoot Bracketing • 4.2 Metode Bisection • 4.3. MetodeRegulaFalsi • 4.4. Metode Newton-Raphson • 4.5. Metode Secant • 4.6. PenggunaanAkarBanyak • 4.7. Akardalam MATLAB • PraktikumModul III

  10. LECTURE CONTRACT • Chapter by Chapter: • ANALISA REGRESI POLINOMIAL - 3 TM • 5.1. AnalisaRegresi • 5.2 MetodeLeast Square • 5.3. Regresi Linier • 5.4. LinierisasiKurvaTidak Linier • 5.5. RegresiPolinomial • PraktikumModul IV • MID 1 TM

  11. LECTURE CONTRACT • Chapter by Chapter: • INTERPOLASI - 3 TM • 6.1. Interpolasi Linier • 6.2 InterpolasiKuadrat • 6.3. InterpolasiPolinomial Newton • 6.4. InterpolasiLangrange • 6.5. InterpolasiSpline • 6.6. Interpolasibantuan MATLAB • PraktikumModul V

  12. LECTURE CONTRACT • Chapter by Chapter: • INTEGRASI NUMERIK - 3 TM • 7.1. PengantarIntergrasiNumerik • 7.2 MetodeAturanTrapesium • 7.3. Metode Simpson • 7.4. Integrasi Romberg • 7.5. integrasi Gauss-Legendre • 7.6. Kuadraturdalam MATLAB • PraktikumModul VI

  13. LECTURE CONTRACT • Chapter by Chapter: • DIFFERENSIASI NUMERIK - 3 TM • 8.1. DifferensiasiOrdeSatu • 8.1.1. Formula SelisihMajuantartitik • 8.1.2. Formula SelisihMundurantartitik • 8.1.3. Formula SelisihPusatantartitik • 8.1.4. Extrapolasi Richardson • 8.1.5. HampiranDifferensialInterpolasi • 8.2 DifferensiasiOrdeDuadanOrdeLebih • 8.2.1. FormulasiSelisihPusatDifferensialordetinggi • 8.2.2. DifferensialPolinomialInterpolasi • 8.3. Differensialmenggunakan MATLAB • PraktikumModul VII

  14. LECTURE CONTRACT • Chapter by Chapter: • PERSAMAAN DIFFERENSIAL BIASA- 4 TM • 9.1. Pengantar PDB • 9.2. Metode Euler • 9.3. MetodeRunge-Kutha • 9.4. MetodePrediktor-Korektor • 9.5. MetodeGalerkin • 9.6. PD denganOrdeTinggi • 9.7. PD dalam MATLAB • PraktikumModul VIII

  15. LECTURE CONTRACT • Chapter by Chapter: • PERSAMAAN DIFFERENSIAL PARSIAL- 2 TM • 10.1. MetodeShooting • 10.2. MetodeKolakasi • 10.3. PersamaanDifferensialParabolik • 10.3.1. PenyelesaiandenganEksplesit • 10.3.2. PenyelesaiandenganImplisit • 10.4. PersamaanDifferensalEliptik • 10.5. PersamaanDifferensialHiperbolik • FINAL TEST

  16. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  17. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  18. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  19. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  20. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  21. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  22. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  23. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  24. APLICATIONS OF THE COMPUTATIONAL PHYSICS

  25. GOOD LUCK for YOU

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