Basics of thermodynamics

Course Feature
  • Cost
    Free
  • Provider
    Coursera
  • Certificate
    Paid Certification
  • Language
    English
  • Start Date
    14th Mar, 2022
  • Learners
    No Information
  • Duration
    8.00
  • Instructor
    Rasul Abdullaev, Leonid Braginsky and Arthur Pogos
Next Course
1.5
0 Ratings
This course on thermodynamics provides a comprehensive overview of the basics, focusing on the most important topics and excluding specialized topics. Participants will learn about unusual phenomena, such as stretched liquid, and observe interesting experiments. It is designed to provide a core of knowledge that will enable future specialists to easily supplement it with special tasks. It may also be of interest to those who have already studied thermodynamics.
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Course Overview

❗The content presented here is sourced directly from Coursera platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.

Updated in [March 06th, 2023]

This course on the basics of thermodynamics is designed to provide a comprehensive overview of the subject for a wide audience. It focuses on the most essential topics, while excluding less important specialized topics. Participants will learn about unusual phenomena such as stretched liquid and see interesting experiments. The course is designed to provide a core of knowledge that will allow students to easily supplement it with appropriate special tasks in the future. It is also suitable for those who have already studied thermodynamics, as it provides a different perspective on the subject.

[Applications]
The application of this course on the basics of thermodynamics can be seen in various fields. It can be used to gain a better understanding of physical phenomena, to supplement knowledge with special tasks, and to look at the course from a different perspective. It can also be used to gain a better understanding of the interconnection of the parts of thermodynamics. Furthermore, it can be used to gain a better understanding of unusual phenomena such as stretched liquid and to see interesting experiments.

[Career Paths]
Career Paths:
1. Thermal Engineer: Thermal engineers are responsible for designing, developing, and testing thermal systems and components. They use thermodynamics, heat transfer, and fluid mechanics to analyze and optimize the performance of these systems. Thermal engineers are in high demand in the automotive, aerospace, and energy industries, and the demand for their services is expected to grow in the coming years.

2. HVAC Technician: HVAC technicians are responsible for installing, maintaining, and repairing heating, ventilation, and air conditioning systems. They use thermodynamics and fluid mechanics to diagnose and troubleshoot problems with these systems. HVAC technicians are in high demand in the residential and commercial sectors, and the demand for their services is expected to grow in the coming years.

3. Refrigeration Technician: Refrigeration technicians are responsible for installing, maintaining, and repairing refrigeration systems. They use thermodynamics and fluid mechanics to diagnose and troubleshoot problems with these systems. Refrigeration technicians are in high demand in the residential and commercial sectors, and the demand for their services is expected to grow in the coming years.

4. Energy Analyst: Energy analysts are responsible for analyzing energy usage and developing strategies to reduce energy consumption. They use thermodynamics and fluid mechanics to analyze energy usage and identify areas of improvement. Energy analysts are in high demand in the residential and commercial sectors, and the demand for their services is expected to grow in the coming years.

[Education Paths]
Recommended Degree Paths:

1. Mechanical Engineering: Mechanical engineering is a field of engineering that focuses on the design, construction, and operation of machines and mechanical systems. It is a rapidly growing field, with new technologies and applications being developed every day. Mechanical engineers are in high demand in many industries, including automotive, aerospace, manufacturing, and energy. As a mechanical engineer, you will be responsible for designing, testing, and troubleshooting mechanical systems and components.

Developing Trends: With the rise of automation and robotics, mechanical engineers are increasingly being called upon to design and develop automated systems and robots. Additionally, the development of new materials and technologies is creating new opportunities for mechanical engineers to develop innovative solutions to complex problems.

2. Aerospace Engineering: Aerospace engineering is a field of engineering that focuses on the design, construction, and operation of aircraft and spacecraft. Aerospace engineers are responsible for designing, testing, and troubleshooting aircraft and spacecraft systems and components. They must also be knowledgeable about aerodynamics, propulsion, and materials science.

Developing Trends: With the rise of unmanned aerial vehicles (UAVs) and space exploration, aerospace engineers are increasingly being called upon to design and develop new technologies and systems for these applications. Additionally, the development of new materials and technologies is creating new opportunities for aerospace engineers to develop innovative solutions to complex problems.

3. Chemical Engineering: Chemical engineering is a field of engineering that focuses on the design, construction, and operation of chemical processes and systems. Chemical engineers are responsible for designing, testing, and troubleshooting chemical processes and systems. They must also be knowledgeable about thermodynamics, fluid mechanics, and materials science.

Developing Trends: With the rise of new materials and technologies, chemical engineers are increasingly being called upon to design and develop new processes and systems for these applications. Additionally, the development of new materials and technologies is creating new opportunities for chemical engineers to develop innovative solutions to complex problems.

4. Nuclear Engineering: Nuclear engineering is a field of engineering that focuses on the design, construction, and operation of nuclear reactors and systems. Nuclear engineers are responsible for designing, testing, and troubleshooting nuclear reactors and systems. They must also be knowledgeable about thermodynamics, fluid mechanics, and materials science.

Developing Trends: With the rise of new materials and technologies, nuclear engineers are increasingly being called upon to design and develop new reactors and systems for these applications. Additionally, the development of new materials and technologies is creating new opportunities for nuclear engineers to develop innovative solutions to complex problems.

Course Syllabus

Temperature and thermal equilibrium

In this module you will become familiar with the basic concepts of thermodynamic equilibrium and temperature, as well as other thermodynamic parameters. You will learn the basic laws, that describe the ideal gas. This module will serve as a starting point for further study of the course.

The First law of thermodynamics

This module focuses on the first law of thermodynamics. You will learn quasistatic processes. You have to study the relationship between internal energy, the amount of heat and the work of a gas, get acquainted with the concept of heat capacity.

The second law of thermodynamics

This module focuses on the second law of thermodynamics. You will become familiar with the Carnot and Otto cycles, the operation of internal combustion engines, refrigerators and heat pumps.

Real gases and phase transitions

This module is devoted to real gases and the Van der Waals equation describing them. With its help, you will study such processes as cooling and liquefaction of gases, get acquainted with the unusual states of matter. Interesting physics experiments are waiting for you in this module.

Heat transfer

In this module you will explore the phenomenon of thermal conductivity. You will get acquainted with the blackbody model, as well as the application of the thermodynamic approach to the description of thermal radiation.
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