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Rasul Abdullaev,
Leonid Braginsky,
and
Arthur Pogosov
Our course on the basics of thermodynamics targeting a wide audience includes only what is absolutely necessary, focusing on the most basic issues, excluding less important specialized topics. However, you will learn about unusual phenomena such as stretched...
Read more
Our course on the basics of thermodynamics targeting a wide audience includes only what is absolutely necessary, focusing on the most basic issues, excluding less important specialized topics. However, you will learn about unusual phenomena such as stretched...
Read more
Our course on the basics of thermodynamics targeting a wide audience includes only what is absolutely necessary, focusing on the most basic issues, excluding less important specialized topics. However, you will learn about unusual phenomena such as stretched liquid and see interesting experiments. A future competent specialist, whose work should be at least somehow connected with physical phenomena, will find this course in thermodynamics useful and necessary. We tried to explain the basic concepts as clearly and consistently as possible and at the same time remain at a serious physical level. As a result, in a relatively short time, you will receive a core of knowledge that will allow you to easily supplement it with appropriate special tasks in the future. In addition, such an ultra-short extract of the essentials often allows you to look at the course differently: to cover it as a whole, to see the interconnection of the parts. So, it may be of interest even to those who have already studied thermodynamics.
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This course covers the core concepts of thermodynamics clearly and consistently, providing a solid foundation for further study
Suitable for a wide range of learners, including those with limited background in physics
Presents unusual phenomena and interesting experiments, making learning more engaging
Can serve as a refresher for those who have previously studied thermodynamics, offering a concise overview of the fundamentals
Focuses on essential concepts, excluding specialized topics, making it accessible to beginners
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Reviews summary
Basics of thermodynamics core knowledge course
Basics of Thermodynamics Core Knowledge Course is a solid fundamentals course.
Interesting and helpful visual experiments.
"...you will learn about unusual phenomena such as stretched liquid and see interesting experiments."
Professors provide clear explanations.
"We tried to explain the basic concepts as clearly and consistently as possible..."
Introductory level course.
"Our course on the basics of thermodynamics targeting a wide audience includes only what is absolutely necessary, focusing on the most basic issues, excluding less important specialized topics."
No replies from moderators.
"I tried to raise some of the issues with moderators but they never bothered to reply."
Content with errors and mistakes.
"Unfortunately, there are a lot of obvious mistakes and missed data in quizzes."
"The questions were often unclear too."
"The subtitles are a mess, and are impossible to understand..."
Professors with heavy accents.
"The accent of the lecturers is very heavy, so that they are difficult to understand."
Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Basics of thermodynamics with these
activities:
Review your notes from previous courses related to thermodynamics
Show steps
Refresh your memory of foundational concepts in thermodynamics to build a stronger knowledge base.
Browse courses on
Thermodynamics
Show steps
-
Gather your notes from previous courses or textbooks.
-
Review the key concepts and equations.
-
Identify areas where you need further clarification.
-
Seek additional resources or support to strengthen your understanding.
Read 'Thermodynamics: An Engineering Approach' by Yunus A. Çengel and Michael A. Boles
Show steps
Supplement your learning by reading a comprehensive textbook on thermodynamics.
Show steps
-
Read each chapter thoroughly, taking notes and highlighting important concepts.
-
Solve the practice problems at the end of each chapter.
-
Attend book club discussions or online forums related to the book.
Participate in online discussion forums on thermodynamics
Show steps
Engage with peers to discuss concepts, ask questions, and share insights related to thermodynamics.
Show steps
-
Join online discussion forums or groups.
-
Actively participate in discussions by sharing your thoughts and asking questions.
-
Provide constructive feedback to other participants.
Two other activities
Expand to see all activities and additional details
Show all five activities
Create a presentation on a specific topic in thermodynamics
Show steps
Deepen your understanding of a specific topic by creating a presentation that covers its key concepts and applications.
Show steps
-
Choose a specific topic in thermodynamics that interests you.
-
Research the topic thoroughly, gathering information from reliable sources.
-
Organize your content into a logical flow, including an introduction, body, and conclusion.
-
Design visually appealing slides using appropriate visuals and graphics.
-
Practice presenting your content effectively.
Build a model of a thermodynamic system
Show steps
Apply your knowledge of thermodynamics to build a physical or virtual model of a thermodynamic system.
Show steps
-
Identify the key components of the system.
-
Design the model based on the principles of thermodynamics.
-
Construct or simulate the model.
-
Test and validate the model's accuracy.
Review your notes from previous courses related to thermodynamics
Show steps
Refresh your memory of foundational concepts in thermodynamics to build a stronger knowledge base.
Browse courses on
Thermodynamics
Show steps
Show steps
Show steps
- Gather your notes from previous courses or textbooks.
- Review the key concepts and equations.
- Identify areas where you need further clarification.
- Seek additional resources or support to strengthen your understanding.
Read 'Thermodynamics: An Engineering Approach' by Yunus A. Çengel and Michael A. Boles
Show steps
Supplement your learning by reading a comprehensive textbook on thermodynamics.
Show steps
Show steps
Show steps
- Read each chapter thoroughly, taking notes and highlighting important concepts.
- Solve the practice problems at the end of each chapter.
- Attend book club discussions or online forums related to the book.
Participate in online discussion forums on thermodynamics
Show steps
Engage with peers to discuss concepts, ask questions, and share insights related to thermodynamics.
Show steps
Show steps
Show steps
- Join online discussion forums or groups.
- Actively participate in discussions by sharing your thoughts and asking questions.
- Provide constructive feedback to other participants.
Two other activities
Expand to see all activities and additional details
Show all five activities
Create a presentation on a specific topic in thermodynamics
Show steps
Deepen your understanding of a specific topic by creating a presentation that covers its key concepts and applications.
Show steps
Show steps
Show steps
- Choose a specific topic in thermodynamics that interests you.
- Research the topic thoroughly, gathering information from reliable sources.
- Organize your content into a logical flow, including an introduction, body, and conclusion.
- Design visually appealing slides using appropriate visuals and graphics.
- Practice presenting your content effectively.
Build a model of a thermodynamic system
Show steps
Apply your knowledge of thermodynamics to build a physical or virtual model of a thermodynamic system.
Show steps
Show steps
Show steps
- Identify the key components of the system.
- Design the model based on the principles of thermodynamics.
- Construct or simulate the model.
- Test and validate the model's accuracy.
Career center
Learners who complete Basics of thermodynamics will develop knowledge and skills
that may be useful to these careers:
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design and build machines and other mechanical systems. Thermodynamics is a core subject for Mechanical Engineers, as it helps them understand and predict the behavior of mechanical systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Mechanical Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Materials Scientist
Materials Scientist
A Materials Scientist applies the principles of physics and chemistry to develop and improve materials used in a variety of industries, such as construction, aerospace, and manufacturing. Thermodynamics is a fundamental science that helps Materials Scientists understand the behavior of materials under different conditions. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Materials Scientists, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Chemical Engineer
Chemical Engineer
Chemical Engineers design, build, and operate chemical plants and other industrial facilities. Thermodynamics is a core subject for Chemical Engineers, as it helps them understand and predict the behavior of chemical systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Chemical Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Environmental Engineer
Environmental Engineer
Environmental Engineers design, build, and operate systems to protect the environment. Thermodynamics is a core subject for Environmental Engineers, as it helps them understand and predict the behavior of environmental systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Environmental Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Petroleum Engineer
Petroleum Engineer
Petroleum Engineers design, build, and operate oil and gas wells and other petroleum facilities. Thermodynamics is a core subject for Petroleum Engineers, as it helps them understand and predict the behavior of petroleum systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Petroleum Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Biomedical Engineer
Biomedical Engineer
Biomedical Engineers design, build, and operate medical devices and other biomedical systems. Thermodynamics is a core subject for Biomedical Engineers, as it helps them understand and predict the behavior of biomedical systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Biomedical Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Civil Engineer
Civil Engineer
Civil Engineers design, build, and operate civil infrastructure, such as bridges, roads, and buildings. Thermodynamics is a core subject for Civil Engineers, as it helps them understand and predict the behavior of civil infrastructure. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Civil Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Nuclear Engineer
Nuclear Engineer
Nuclear Engineers design, build, and operate nuclear power plants and other nuclear facilities. Thermodynamics is a core subject for Nuclear Engineers, as it helps them understand and predict the behavior of nuclear systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Nuclear Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Aerospace Engineer
Aerospace Engineer
Aerospace Engineers design, build, and operate aircraft and other aerospace vehicles. Thermodynamics is a core subject for Aerospace Engineers, as it helps them understand and predict the behavior of aerospace systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Aerospace Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Electrical Engineer
Electrical Engineer
Electrical Engineers design, build, and operate electrical systems, such as power plants, transmission lines, and electrical equipment. Thermodynamics is a core subject for Electrical Engineers, as it helps them understand and predict the behavior of electrical systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Electrical Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Industrial Engineer
Industrial Engineer
Industrial Engineers design, build, and operate industrial systems, such as factories, warehouses, and distribution centers. Thermodynamics is a core subject for Industrial Engineers, as it helps them understand and predict the behavior of industrial systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Industrial Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Manufacturing Engineer
Manufacturing Engineer
Manufacturing Engineers design, build, and operate manufacturing systems. Thermodynamics is a core subject for Manufacturing Engineers, as it helps them understand and predict the behavior of manufacturing systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Manufacturing Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Systems Engineer
Systems Engineer
Systems Engineers design, build, and operate complex systems, such as aircraft, spacecraft, and nuclear power plants. Thermodynamics is a core subject for Systems Engineers, as it helps them understand and predict the behavior of complex systems. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Systems Engineers, as it covers the essential concepts and principles of thermodynamics that are directly applicable to this field.
Physicist
Physicist
Physicists study the fundamental laws of nature. Thermodynamics is a core subject for Physicists, as it helps them understand the behavior of matter and energy. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Physicists, as it covers the essential concepts and principles of thermodynamics.
Chemist
Chemist
Chemists study the composition, structure, and properties of matter. Thermodynamics is a core subject for Chemists, as it helps them understand the behavior of chemical reactions. This course in Basics of Thermodynamics can provide a strong foundation for aspiring Chemists, as it covers the essential concepts and principles of thermodynamics.
For more career information including salaries, visit:
OpenCourser.com/course/jhwavh/basics
Reading list
We've selected ten books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Basics of thermodynamics.
This advanced textbook provides a comprehensive overview of thermodynamics, from the foundations to modern applications. It covers both classical and statistical thermodynamics, as well as topics such as irreversible processes, chaos, and complexity. While it is more advanced than the course, it would be a valuable reference for those who wish to delve deeper into the subject.
This classic textbook provides a clear and concise introduction to thermodynamics and statistical mechanics. It good choice for those who want to learn the basics of thermodynamics without getting bogged down in too much detail.
This popular textbook is written in a clear and engaging style. It covers all the essential topics in thermodynamics, with a focus on practical applications.
Save
This textbook is written specifically for engineering students. It provides a comprehensive overview of thermodynamics, with a focus on applications in engineering fields such as mechanical, chemical, and aerospace engineering.
This textbook provides a clear and concise introduction to statistical thermodynamics. It good choice for those who want to learn the basics of statistical thermodynamics without getting bogged down in too much detail.
This textbook provides a clear and concise introduction to thermodynamics. It good choice for those who want to learn the basics of thermodynamics without getting bogged down in too much detail.
This textbook provides a clear and concise introduction to thermodynamics and heat transfer. It good choice for those who want to learn the basics of these subjects without getting bogged down in too much detail.
This textbook provides a clear and concise introduction to thermodynamics and heat power. It good choice for those who want to learn the basics of thermodynamics without getting bogged down in too much detail.
This textbook provides a clear and concise introduction to thermodynamics. It good choice for those who want to learn the basics of thermodynamics without getting bogged down in too much detail.
This textbook provides a clear and concise introduction to thermodynamics. It good choice for those who want to learn the basics of thermodynamics without getting bogged down in too much detail.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/jhwavh/basics
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Time
24 hours
Via
Coursera
Institution
Novosibirsk State University
Instructors
Rasul Abdullaev
Leonid Braginsky
Arthur Pogosov
Good to know
This course covers the core concepts of thermodynamics clearly and consistently, providing a solid foundation for further study
Suitable for a wide range of learners, including those with limited background in physics
Presents unusual phenomena and interesting experiments, making learning more engaging
Can serve as a refresher for those who have previously studied thermodynamics, offering a concise overview of the fundamentals
Focuses on essential concepts, excluding specialized topics, making it accessible to beginners
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