Fundamentals of Engineering Thermodynamics
4.1 (32 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
3,705 students enrolled

Fundamentals of Engineering Thermodynamics

With +50 Solved Problems to Practice For Your Exams and Understand Concepts Better
4.1 (32 ratings)
Course Ratings are calculated from individual students’ ratings and a variety of other signals, like age of rating and reliability, to ensure that they reflect course quality fairly and accurately.
3,705 students enrolled
Created by Prof. Samer
Last updated 8/2020
English
English [Auto]
Current price: $139.99 Original price: $199.99 Discount: 30% off
23 hours left at this price!
30-Day Money-Back Guarantee
This course includes
  • 22.5 hours on-demand video
  • 1 article
  • 2 downloadable resources
  • Full lifetime access
  • Access on mobile and TV
  • Certificate of Completion
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What you'll learn
  • Identify the basic principles of thermodynamics
  • Analyze some steady-flow engineering devices such as nozzles, compressors, turbines, throttling valves, mixers, and heat exchangers
  • Evaluate work, heat transfer and power in processes
  • Understand entropy concept and the 2nd law of thermodynamics, and apply them to practical problems
Requirements
  • Students are assumed to have an adequate background in calculus and physics
Description

This course introduces and discusses the concepts and fundamentals of temperature and thermometry, equations of state for fluids and solids, work, heat, the first law, internal energy, enthalpy, specific heats, energy equations for flow, change of phase, the second law, reversibility, entropy; combined first and second laws. It analyzes applications to a wide range of processes and devices.

Who this course is for:
  • Engineering students
Course content
Expand all 108 lectures 22:34:19
+ Energy and the First Law of Thermodynamics
16 lectures 02:22:49
Internal Energy
06:30
Heat Transfer
20:26
Example 4
05:22
1st Law of Thermodynamics for a Closed System
06:08
Example 5
04:56
Example 6
09:00
Example 7
05:33
Energy Analysis of Cycles
11:58
Example 8
03:53
Example 9
13:58
Example 10
06:22
+ Evaluating Properties
23 lectures 08:01:01
Property Tables Saturated Liquid and Saturated Vapor States
22:58
Property Tables Saturated Liquid-Vapor Mixture
17:28
Property Tables Superheated Vapor
13:27
Property Tables Compressed Liquid
21:17
Linear Interpolation
11:52
Example 1
22:41
Example 2
25:00
Example 3
58:50
Introducing Specific Heats Cv and Cp
26:48
The Ideal Gas Model
10:19
Generalized Compressibility Chart
18:34
Example 4
09:46
Evaluating Properties Using the Ideal Gas Model
11:55
Polytropic Process Relations
14:42
Example 5
13:11
Example 6
24:12
Example 7
21:16
Example 8
07:20
Example 9
22:47
Example 10
27:20
+ Control Volume Analysis Using Energy
15 lectures 02:52:01
Conservation of Energy for a Control Volume
11:29
Nozzles and Diffusers
07:21
Example 2
11:23
Turbines and Compressors
09:36
Example 3
08:16
Example 4
06:18
Heat Exchangers
13:02
Example 5
19:01
Throttling Devices
06:44
Example 6
16:25
Example 7
14:04
Example 8
14:08
Example 9
12:22
+ The Second Law of Thermodynamics
18 lectures 03:31:14
Reversible Heat Transfer
21:28
Internally and Externally Reversible Processes
03:47
Heat Engines
19:23
Carnot Cycle
24:54
Reversed Carnot Cycle
03:16
The Carnot Principles
05:11
The Carnot Heat Engine
12:43
The Carnot Refrigerator and Heat Pump
06:24
Clausius Inequality
10:56
Example 1
06:22
Example 2
05:04
Example 3
07:50
Example 4
08:12
Example 5
21:24
Example 6
07:19
Example 7
05:28
+ Entropy
29 lectures 04:02:15
Entropy
06:02
Retrieving Entropy Data
04:48
Example 1
10:18
The Tds Relations
05:28
Entropy Change of an Incompressible Substance
02:25
Entropy Change of an Ideal Gas
05:18
Entropy Change in Reversible Processes of Closed System
18:54
Example 2
07:40
Entropy Balance for Closed Systems
09:23
Entropy Rate Balance for Closed Systems
02:30
Example 3
03:49
The Increase of Entropy Principle
05:12
Entropy Rate Balance for Control Volumes
08:44
Example 4
09:23
Example 5
24:08
Isentropic Processes
13:54
Example 6
08:40
Example 7
03:26
Isentropic Turbine Efficiency
05:36
Example 8
09:47
Example 9
06:04
Isentropic Nozzle Efficiency
01:30
Example 10
08:51
Isentropic Compressor and Pump Efficiencies
04:15
Example 11
05:55
Reversible Work in a Steady-Flow Device
06:01
Example 12
07:50
Minimizing Compressor Work
27:08
Example 13
09:16
+ Bonus Section: Coupons for all courses
1 lecture 00:03
Bonus Lecture: Coupons for all courses
00:03