Chemical Engineering Thermodynamics 2 from Coursera

An appreciation of thermodynamics is required to become a chemical and biomolecular engineer. Thermodynamics can assess the viability of a process and is one of the curriculum's most essential topics. The principles are utilized in following engineering courses (kinetics, mass transfer, design, materials) and are applicable to numerous engineering disciplines. The increased emphasis on energy usage and transformation as a result of rising demand, diminishing supply, and global warming necessitates that the engineers who will tackle these issues have a firm grasp of thermodynamics.

The first and second laws will be studied in this course. Non-ideal features of single-component and multicomponent systems will be emphasized. A substantial portion of the course is devoted to solution thermodynamics, which is crucial for separations (e.g., distillation, extraction, membranes), and chemical equilibrium, which is crucial for reaction engineering.

"A theory is more striking when its premises are simpler, when it relates more diverse types of things, and when its scope of applicability is broader. Consequently, the profound impact that classical thermodynamics had on me. It is the only physical theory with universal content that I am confident, within the range of its applicability, will never be overthrown."

— Albert Einstein

What's inside

Syllabus

Week 1

Week 2

Week 3

Week 4

Week 5

Week 6

Week 7

Week 8

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Intended for graduate-level engineers who are pursuing Chemical and Biomolecular Engineering

Covers the first and second laws of thermodynamics, non-ideal features of single-component and multicomponent systems, solution thermodynamics, and chemical equilibrium

Provides a foundation for advanced engineering courses in kinetics, mass transfer, design, materials, and is applicable to numerous engineering disciplines

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 Chemical Engineering Thermodynamics 2 with these activities:

Review the prerequisites

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Reviewing the prerequisites for the course will help you to refresh your memory and ensure that you have the necessary background knowledge.

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Review your notes from previous courses
Work through practice problems
Take a practice quiz

Review the textbook

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Reviewing the textbook in advance or concurrently will help you familiarize yourself with the key concepts and terms that you will be cover in the course.

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Read the assigned chapters before each lecture
Highlight and annotate the important points
Summarize the key concepts in your own words

Watch video tutorials

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Watching video tutorials can help you to visualize the concepts that you are learning and reinforce your understanding.

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Find video tutorials on the topics that you are struggling with
Watch the videos carefully and take notes
Summarize the key points in your own words

Four other activities

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Solve practice problems

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Solving practice problems will help you to solidify understanding of the concepts and apply them to new situations.

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Collect practice problems from the textbook or online resources
Work through the problems step-by-step
Check your answers against the solutions provided

Join a study group

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Joining a study group will allow you to discuss the course material with other students and get help with difficult concepts.

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Find a study group that meets your schedule and learning style
Attend the study group meetings regularly
Participate in the discussions and ask questions

Tutor other students

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Tutoring other students will help you to solidify your understanding of the course material and to develop your communication and teaching skills.

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Contact your professor or TA to see if there are any tutoring opportunities
Meet with the students regularly to help them with their work
Provide feedback and guidance to the students

Create a project

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Creating a project will allow you to apply the knowledge that you have learned in the course to a real-world problem.

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Write a report that describes your project
Choose a topic that you are interested in
Research the topic and gather data
Design and build a solution to the problem

Career center

Learners who complete Chemical Engineering Thermodynamics 2 will develop knowledge and skills that may be useful to these careers:

Chemical Engineer

Chemical Engineers apply the principles of chemistry, physics, and mathematics to the design, operation, and control of chemical plants and processes. Chemical Engineering Thermodynamics 2 helps build a foundation in the fundamentals of thermodynamics, which is critical for understanding and predicting the behavior of chemical systems. This course can be especially valuable for those who seek to apply thermodynamics to the design and optimization of chemical processes.

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Process Engineer

Process Engineers design, operate, and maintain industrial processes to ensure efficiency and safety. Chemical Engineering Thermodynamics 2 helps build a foundation in the principles of thermodynamics, which is essential for understanding and optimizing industrial processes. This course can be especially valuable for those who seek to apply thermodynamics to the design and optimization of process systems.

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Bioprocess Engineer

Bioprocess Engineers design, construct, and manufacture systems that harness the power of living organisms and their molecules to create products. Chemical Engineering Thermodynamics 2, with its emphasis on solution thermodynamics, can help prepare you for this role by providing a foundation in the principles of thermodynamics as they relate to chemical and biological systems. This course can be particularly useful for those who seek to apply thermodynamics to the design and optimization of bioprocesses.

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Petroleum Engineer

Petroleum Engineers design and manage the extraction and production of oil and gas. Chemical Engineering Thermodynamics 2 can be useful for those who seek to apply thermodynamics to the study of petroleum reservoirs and the optimization of oil and gas production. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of petroleum fluids.

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Nuclear Engineer

Nuclear Engineers design and operate nuclear power plants and other nuclear facilities. Chemical Engineering Thermodynamics 2 can be useful for those who seek to apply thermodynamics to the study of nuclear systems and the optimization of nuclear power production. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of nuclear materials and processes.

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Energy Engineer

Energy Engineers design and manage energy systems to ensure efficiency and sustainability. Chemical Engineering Thermodynamics 2 can be useful for those who seek to apply thermodynamics to the study of energy systems and the optimization of energy production and use. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of energy sources.

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Environmental Engineer

Environmental Engineers design and implement solutions to environmental problems. Chemical Engineering Thermodynamics 2 can be useful for those who seek to apply thermodynamics to the study of environmental systems and the development of sustainable technologies. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of environmental pollutants.

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Materials Scientist

Materials Scientists research and develop new materials with improved properties for use in a wide range of applications. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of materials properties and behavior. This course can help build a foundation in the principles of thermodynamics as they relate to the structure and properties of materials.

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Mechanical Engineer

Mechanical Engineers design, build, and operate mechanical systems. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of mechanical systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of mechanical systems.

See salaries and explore the career path for Mechanical Engineer

Aerospace Engineer

Aerospace Engineers design, build, and operate aircraft and spacecraft. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of aerospace systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of aerospace materials and systems.

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Civil Engineer

Civil Engineers design, build, and maintain infrastructure such as roads, bridges, and buildings. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of civil engineering systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of civil engineering materials and systems.

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Electrical Engineer

Electrical Engineers design, build, and maintain electrical systems such as power plants, transmission lines, and electronic devices. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of electrical engineering systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of electrical engineering materials and systems.

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Industrial Engineer

Industrial Engineers design, build, and maintain industrial systems such as factories, warehouses, and supply chains. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of industrial systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of industrial engineering materials and systems.

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Systems Engineer

Systems Engineers design, build, and maintain complex systems such as aircraft, spacecraft, and nuclear power plants. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of complex systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of complex systems.

See salaries and explore the career path for Systems Engineer

Computer Engineer

Computer Engineers design, build, and maintain computer systems such as computers, networks, and software. Chemical Engineering Thermodynamics 2 may be useful for those who seek to apply thermodynamics to the study of computer systems and the optimization of their performance. This course can help build a foundation in the principles of thermodynamics as they relate to the properties and behavior of computer engineering materials and systems.

See salaries and explore the career path for Computer Engineer