CollegeFluidMechanics
My name is Rasim Guldiken. I am a John Brammer Endowed Professor and Head of the Mechanical and Aerospace Engineering Department at Oklahoma State University. I was also a Professor and the Associate Dean for Academic Affairs of the College of Engineering at the University of South Florida until 2025. I have taught fluid mechanics, thermodynamics, and engineering mathematics-related courses 40+ times to 3000+ B.S., M.S., and Ph.D. students for the last 17 years. My engineering education interests lie in open courseware for courses, metacognitive activities, and flipped learning.
This material is based upon work supported by the National Science Foundation (NSF) under Grant Nos. 2019664 and 2335800. Any opinions, findings, conclusions, or recommendations expressed in this material are mine and do not necessarily reflect the views of the NSF.
Thermo 7.9: Isentropic Efficiency of Turbines, Compressors and Pumps
Thermo 7.8: Isentropic Efficiency of Nozzles
Термо 7.7: Изменение энтропии – Изэнтропические процессы идеальных газов
Thermo 7.6: Entropy Change - Ideal Gases
Thermo 7.5: Entropy Change - Liquids and Solids
Thermo 7.4: First and Second Tds relationships (Gibbs Equations)
Thermo 7.3: Entropy Change - Pure Substances
Thermo 7.2: Entropy Increase Principle
Термо 7.1: Энтропия и неравенство Клаузиуса
Thermo 6.7: Carnot Cycle, 2 Solved Example Problems
Thermo 6.6: Carnot Cycle, Carnot Heat Engine, Carnot Efficiency
Thermo 6.5: Reversible Processes
Thermo 6.4 - Refrigeration Cycle - 2 solved example problems
Thermo 6.3 - Second Law of Thermodynamics; Refrigeration Cycle; Clausius Statement
Thermo 6.2 - Heat Engine - Solved Example Problem
Thermo 6.1 - Second Law of Thermodynamics; Heat Engine; Kelvin-Planck Statement
Thermo 5.4 — Сопла и диффузоры — Два решённых примера задач
Thermo 5.8 - Heat Exchangers - Solved Example Problem
Thermo 5.7 - Throttling Devices - Solved Example Problem
Thermo 5.6 - Compressors and Pumps - Solved Example Problem
Thermo 5.5 - Turbines - Solved Example Problem
Thermo 5.3 - Flow Work (Energy) and Conservation Energy for Open Systems
Thermo 5.2 - Conservation Mass for Open Systems
Thermo 5.1 - Conservation Mass and Energy for Open Systems - Intro
Thermo 4.11 - Specific Heat of Liquids and Solids - Solved Example Problem
Thermo 4.10 - Specific Heat of Ideal Gases - Solved Example Problem II
Thermo 4.9 - Specific Heat of Ideal Gases - Solved Example Problem I
Thermo 4.8 - Specific Heat of Ideal Gases, Liquids, and Solids.
Thermo 4.7 — энергетический анализ замкнутой системы — решённый пример
Thermo 4.6 - Energy Analysis for Closed System