For each section, view the video linked here first. Then, read the corresponding section in the Practice Problems book, and then solve all the problems in that section. When you complete those steps, move on to the next section.

Part I: Thermodynamics & Energy Balances

• Section 01: Mass and Volume Flow Rates
• Section 02: Mass Balances 
• Section 03: Introduction to Energy Balances
• Section 04: Control Volume Analysis - Incompressible Substances
• Section 05: Control Volume Analysis - Ideal Gases
• Section 06: Saturated Mixtures, Superheated Vapors and Compressed Liquids
  • Part I: Superheated Vapors
  • Part II: Saturated Liquid-Vapor Mixtures and Compressed Liquids
• Section 07: Entropy Balances, Isentropic Processes, and Isentropic Efficiency
  • Part I: Entropy, The Entropy Balance, and The Second Law
  • Part II: Entropy Changes, Isentropic Processes, and Isentropic Efficiency
  • Part III: Graphical Approaches: The Mollier and P-h Diagrams
• Section 08: The Carnot Cycle
• Section 09: The Rankine Cycle
• Section 10: The Brayton Cycle and Combined Gas-Vapor Cycles
• Section 11: Refrigeration
  • Part I: Ideal Vapor Compression Refrigeration Cycle
  • Part II: Multi-stage Vapor Compression and The Gas Refrigeration Cycle
• Section 12: Internal Combustion Engines, Otto & Diesel Cycles
• Section 13: Gas Mixtures
• Section 14: Combustion

Part II: Fluid Mechanics & Hydraulics

• Section 15: Basic Information and Properties of Fluids
• Section 16: Classification of Flows, Terminology & The Bernoulli Equation
• Section 17: Control Volume Analysis - Conservation of Mass & Energy
• Section 18: Control Volume Analysis - Conservation of Momentum
• Section 19: External Flows - Flows Over Immersed Bodies
• Section 20: Internal Flows - Pipe Flow
• Section 21: Simple Pipe Networks
• Section 22: Turbomachines
• Section 23: Compressible Flow - Isentropic Flow
• Section 24: Compressible Flow - Normal Shockwaves
• Section 25: Compressible, Adiabatic Duct Flow with Friction (Fanno Flow)​

Part III: Psychrometrics & HVACR

• Section 26: Properties of Moist Air
• Section 27: The Psychrometric Chart
• Section 28: Simple Cooling and Heating
• Section 29: Adiabatic Mixing of Air Streams
• Section 30: Cooling with Dehumidification and Heating with Humidification
• Section 31: Evaporative Cooling
• Section 32: Wet Cooling Towers

Part IV: Heat Transfer & Heat Exchanger Analysis

• Section 33: Introduction
• Section 34: 1D Steady State Conduction - The Plane Wall
• Section 35: 1D Steady State Conduction - Radial Systems & Fins
• Section 36: Transient Conduction - The "Late" Regime
• Section 37: External Forced Convection
• Section 38: Internal Forced Convection
• Section 39: Natural Convection
• Section 40: Heat Exchangers: Log-Mean Temperature Difference Method
• Section 41: Heat Exchangers: Effectiveness-NTU Method
• Section 42: Radiation Heat Transfer

Part V: General Engineering & Supportive Knowledge

• Section 43: Economic Analysis
• Section 44: Linear Programming
• Section 45: Introduction to Mechanical Properties of Materials
• Section 46: Introduction to Stresses in Pressure Vessels
• Section 47: Statics - A Brief Review
• Section 48: Introduction to Mechanics of Deformable Bodies