Difference between revisions of "AZ"
m |
m |
||
Line 28: | Line 28: | ||
Tools of Numerical Methods: Python, C++, Java, etc. | Tools of Numerical Methods: Python, C++, Java, etc. | ||
Any computation language is eligible to use said Pak DAI and seems picking using python as tools. | Any computation language is eligible to use said Pak DAI and seems picking using python as tools. | ||
+ | |||
+ | ===2nd Session=== | ||
+ | |||
+ | ===3rd Session=== | ||
+ | |||
+ | |||
== Fluid Mechanics == | == Fluid Mechanics == |
Revision as of 00:48, 4 September 2019
THIS IS FINE This Page isn't Completed Yet the deadline is near. Help.
Contents
Profile
Muhammad Anggito Zhafranny / 1706027761. For further information about the creator/user, Click Here
Numerical Methods
This section serves as my study notes of Numerical Methods through my Fifth Semester in DTM UI.
1st Session
Lecturer : Dr. Ahmad Indra and Dr. Ir. Engkos Kosasih
Date : 02 September 2019
﷽
Class is being held at Class GK201. A Computer Laboratory. The class was supposed being held by Mr. Achmad Riadi and Dr. Ir. Engkos A. Kosasih yet suprising moments happen when Dr. Ahmad Indra Siswantara or Pak DAI appearing instead. Pak Engkos appeared after a half hour.
At the beginning, Pak DAI told us the essence of praying before studying, the meaning of our purpose of studying and also the difference of us, engineers and accountant at viewing measurement tolerance before and then we continue to introduction of Numerical Methods. An accountant and economist would see measurement down to every detail like how they counting country's debt down to double digit cent while we engineers are so tolerant at measurements as long as it does not create trouble or mishaps at designed machine or system.
According to Pak Engkos, Numerical Method is simply how to using algorythim and equation we learn from prior subject we learn (ex. Engineering Mathematics) and how to communicate or speak language of computer in order to achieve the results of process a large equation that might be impossible to calculated by human minds alone. Any equations that can be completed with numerics can also be attained by exact way but not vice versa. Human might can calculate first or second order, but in higher order we need to use engineering computation to attain results efficiently and quicker. It's is not something we can calculated with paper in higher order, said Pak Engkos.
Tools of Numerical Methods: Python, C++, Java, etc. Any computation language is eligible to use said Pak DAI and seems picking using python as tools.
2nd Session
3rd Session
Fluid Mechanics
Here lies my case studies that examine a set of problems from textbook Fundamentals of Fluid Mechanics by Munson; Young; Okiishi; and Huebsch. I upload it in form of my handwriting on folio paper, youtube videos and text. Mainly text in Indonesian, i supposed. Mainly created as Mr. DAI instructed it to us as homework. Hope this helps your studies; Tschuss
Chapter 8: Viscous Flowin Pipes
Summary & Study Case on Folio Click to enlarge.
Chapter ini membahas tentang karakteristik aliran didalam pipa. Perpindahan energi terjadi akibat terjadi perubahan pressure atau tekanan seiring perpindahan dari titik A ke titik B.
- Toz Bab8 01.jpg
Page 1
- Toz Bab8 02.jpg
Page 2
- Toz Bab8 03.jpg
Page 3
Youtube
Chapter 9: Flow Over Immersed Bodies
Summary & Study Case on Folio Click to enlarge.
Chapter ini membahas tentang karakteristik aliran luar yang melewati benda terendam. Contoh terdekatnya adalah Ikan yang berenang didalam air. Aliran luar juga sering disebut aerodinamika. Ilmu ini diaplikasikan dalam mendesain transportasi pesawat terbang, mobil, maupun kapal selam dengan memperhatikan gaya fluida (Lift-Drag) dan Lapisan Batas suatu aliran akibat benda yang terendam.
Youtube
Chapter 10: Open-Channel Flow
Summary & Study Case on Folio Click to enlarge.
Berbeda dengan Bab 8, Bab 10 ini melibatkan aliran-aliran yang mengalir dalam kanal dan pipa yang tidak terisi sepenuhnya. Contoh aslinya adalah sungai yang berada disekeliling kita, tetapi itu masih tergolong rumit karena memerlukan pengukuran geometri dari sungai tersebut. Perbedaan signifikan antara bab 8 dan bab 10 terletak pada perubahan tekanan sebagai penggeraknya. Open-Channel Flow tidak memiliki perubahan tekanan sebagai penggerak melainkan kemiringan atau gradien dasar kanal sebagai penggerak.
Important Equation
Youtube
Chapter 11: Compressible Flow
Summary & Study Case on Folio Click to enlarge.
Membahas tentang aliran mampu-mampat yang pada dasarnya jika menyertakan persamaan kontinuitas massa, maka densitas juga ikut berubah seiring perpindahannya melewati duct konvergen-divergen atau sebaliknya. Mempelajari karakteristik aliran jika memasuki duct, dalam arti laju dll.
- Toz Bab11 01.jpg
Page 1
- Toz Bab11 02.jpg
Page 2
- Toz Bab11 03.jpg
Page 3
Youtube
References
Fluid Mechanics
- MUNSON, B. R., YOUNG, D. F., & OKIISHI, T. H. (2006). Fundamentals of fluid mechanics. Hoboken, NJ, J. Wiley & Sons.
Numerical Method
- xxx