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Фролов Михаил Владимирович
This course is devoted to selected problems of classical (theoretical) and fluid mechanics which are usually remain outside the standard course of mechanics. Despite the fact that the course is aimed at students with an understanding of the methods and...
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This course is devoted to selected problems of classical (theoretical) and fluid mechanics which are usually remain outside the standard course of mechanics. Despite the fact that the course is aimed at students with an understanding of the methods and approaches of classical and fluid mechanics, several lectures of the course are devoted to revision of material from the course of classical (theoretical) mechanics. The course is aimed at an audience interested in theoretical physics methods for solving problems of classical and fluid mechanics. The course is designed for an audience that has previously attended general course of classical and fluid mechanics and courses of higher mathematics: mathematical analysis and differential equations theory.
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Know what's good
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Provides a direct path to research in theoretical physics
Fills gaps in the standard mechanics curriculum
Designed for students with a strong background in classical and fluid mechanics

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Reviews summary

Fluid mechanics for beginners

This course gives an overview of classical mechanics, focusing on key topics that give learners a solid foundation in this subject. Students who take this course should have a foundational understanding of the methods and approaches of classical and fluid mechanics and have completed general courses in classical and fluid mechanics, as well as courses in higher mathematics.
Requires good math skills.
"You would need good math skills to follow all the material."
Excellent professor.
"Excellent professor and course."
Focuses on theoretical side of subject.
"You will find this course very intriguing especially if you are looking forward to explore the rich theoretical side of classical mechanics"
Could provide more exercises and detailed explanations.
"Would be nice to have exercises with derivations and/or calculations."
"It would also be great to have more detailed explanations during the lectures."
Course material structure is challenging.
"Short videos but challenging structure of the material."

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 Lectures on Selected Topics in Classical and Fluid Mechanics with these activities:
Review introductory mechanics
Revisit the core concepts of mechanics before diving into this advanced course to ensure a smooth transition.
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  • Go over notes from your previous mechanics course.
  • Review online resources and textbooks on introductory mechanics.
  • Solve practice problems to test your understanding.
Participate in a peer-led study group
Engage with fellow students to discuss concepts, solve problems, and reinforce your understanding through collaborative learning.
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Show steps
  • Find or form a study group with other students taking the course.
  • Set regular meeting times and establish a study schedule.
  • Take turns leading discussions on specific topics or problem-solving sessions.
  • Share notes, resources, and insights with your group members.
Explore advanced fluid mechanics simulations
Complement the theoretical concepts with hands-on simulations to visualize and analyze fluid behavior in complex scenarios.
Browse courses on Fluid Mechanics
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  • Identify reputable online platforms or software for fluid mechanics simulations.
  • Follow tutorials or documentation to set up and run simulations.
  • Experiment with different parameters and boundary conditions to observe the effects on fluid flow.
  • Analyze the simulation results and compare them with theoretical predictions.
Five other activities
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Show all eight activities
Attend a workshop on advanced fluid mechanics techniques
Expand your knowledge and skills by attending a workshop led by experts in the field, gaining access to cutting-edge research and practical applications.
Browse courses on Fluid Mechanics
Show steps
  • Research upcoming workshops on advanced fluid mechanics techniques.
  • Register for a workshop that aligns with your interests and learning goals.
  • Attend the workshop and actively participate in discussions and hands-on activities.
  • Follow up with the workshop organizers or speakers to ask questions and explore further learning opportunities.
Develop a presentation on a specific fluid mechanics phenomenon
Deepen your understanding by researching, explaining, and presenting a specific fluid mechanics phenomenon, fostering both subject matter expertise and communication skills.
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  • Choose a specific fluid mechanics topic that interests you.
  • Conduct thorough research using textbooks, journal articles, and online resources.
  • Organize your findings into a logical and visually appealing presentation.
  • Practice your presentation to ensure clear and effective delivery.
  • Present your findings to an audience (e.g., classmates, instructors, or a local science club).
Mentor a junior student in fluid mechanics
Strengthen your understanding while giving back by mentoring a junior student, reinforcing your knowledge and developing valuable leadership skills.
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  • Reach out to your instructor or department to find opportunities to mentor junior students.
  • Meet with your mentee regularly to discuss course material, provide guidance, and answer questions.
  • Create study materials or practice problems to support your mentee's learning.
  • Provide feedback and encouragement to help your mentee succeed in their studies.
Participate in a fluid mechanics design competition
Put your knowledge and creativity to the test by participating in a design competition, fostering innovation and practical problem-solving skills.
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  • Identify fluid mechanics design competitions that align with your interests.
  • Form a team or work individually to develop a solution to the competition's challenge.
  • Design, build, and test your solution, ensuring it meets the competition requirements.
  • Submit your solution and present your findings to a panel of judges.
  • Reflect on the competition experience and identify areas for improvement.
Develop a fluid mechanics software tool or application
Deepen your understanding of fluid mechanics principles by creating a software tool or application that addresses a specific problem or need in the field.
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  • Identify a problem or need in fluid mechanics that can be addressed with a software solution.
  • Design and develop the software tool or application, ensuring it is user-friendly and efficient.
  • Test and validate your software using real-world data or simulations.
  • Document your software, including its functionality,使用方法, limitations.

Career center

Learners who complete Lectures on Selected Topics in Classical and Fluid Mechanics will develop knowledge and skills that may be useful to these careers:
Theoretical Physicist
Theoretical Physicists apply mathematical models to predict, understand, and analyze the fundamental nature of the universe. They use the principles of theoretical mechanics to describe the motion of objects and systems, including fluids, and may use the principles of classical mechanics to describe the behavior of objects in everyday life. Completing this course would introduce you to advanced concepts that can help you build critical knowledge that is vital to success in this career.
Fluid Dynamicist
Fluid Dynamicists study the behavior of fluids, including the forces that act on them and the effects of fluid flow on objects and systems. This course introduces advanced concepts in fluid mechanics that can help you develop the theoretical foundation necessary for success in this field of study.
Aerospace Engineer
Aerospace Engineers design, develop, test, and maintain aircraft, spacecraft, and other systems that operate in the atmosphere or in space. This course would equip you with the knowledge of theoretical and fluid mechanics that is essential for success in this engineering discipline.
Civil Engineer
Civil Engineers design, construct, and maintain infrastructure systems, including those that involve the flow of fluids. This course may be helpful for building the foundation of knowledge needed for success in this field.
Mechanical Engineer
Mechanical Engineers design, develop, and test mechanical systems, including those that involve the flow of fluids. This course may be helpful for developing the foundational knowledge necessary for success in this field.
Biomedical Engineer
Biomedical Engineers apply engineering principles to solve problems in the medical field. This course may be helpful for those interested in gaining a deeper understanding of the mechanics of fluids and biological systems.
Nuclear Engineer
Nuclear Engineers design, construct, and operate nuclear power plants and other nuclear systems. This course may be helpful for those interested in understanding the mechanics of fluids in nuclear systems.
Robotics Engineer
Robotics Engineers design, build, and program robots. This course may be helpful for understanding the mechanics of fluid systems that may be used in robotic systems.
Chemical Engineer
Chemical Engineers design, construct, and operate chemical plants and other systems that involve the flow of fluids. This course may be helpful for developing the knowledge of fluid mechanics necessary for success in this field.
Environmental Engineer
Environmental Engineers design and implement solutions to environmental problems, including those related to the flow of fluids. This course may be helpful for building a foundation in fluid mechanics as applied to environmental systems.
Petroleum Engineer
Petroleum Engineers design and implement methods for extracting and producing oil and gas. This course may be helpful for understanding the mechanics of fluids as applied to petroleum systems.
Materials Scientist
Materials Scientists study the structure and properties of materials. This course may be helpful for those interested in understanding the mechanics of fluids as applied to materials science.
Geophysicist
Geophysicists study the Earth's physical properties and processes, including the flow of fluids in the Earth's systems. This course may be helpful for building a foundation in fluid mechanics as applied to geophysics.
Oceanographer
Oceanographers study the oceans and their contents, including the flow of fluids in ocean systems. This course may be helpful for building a foundation in fluid mechanics as applied to oceanography.
Astronomer
Astronomers study the universe and its contents, including the motion of fluids in astrophysical systems. This course may be helpful for building a foundation in theoretical and fluid mechanics as applied to astronomy.

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 Lectures on Selected Topics in Classical and Fluid Mechanics.
Classic textbook on classical mechanics. It provides a comprehensive overview of the subject, from the basic concepts to the most advanced topics. It valuable resource for students and researchers alike.
Provides a clear and concise introduction to classical dynamics. It covers the basic concepts and equations, and it includes a number of solved problems. It useful reference for students and engineers.
Provides a clear and concise introduction to applied partial differential equations. It covers the basic concepts and equations, and it includes a number of solved problems. It useful reference for students and engineers.
Provides a comprehensive overview of fluid mechanics at the graduate level. It covers the basic concepts and equations, and it includes a number of solved problems. It valuable resource for students and researchers alike.
Provides a comprehensive overview of the mathematical methods used in engineering and science. It covers a wide range of topics, from vector calculus to partial differential equations. It valuable resource for students and researchers alike.
Provides a clear and concise introduction to fluid mechanics. It covers the basic concepts and equations, and it includes a number of solved problems. It useful reference for students and engineers.
Provides a comprehensive overview of the mathematical methods used in engineering and physics. It covers a wide range of topics, from vector calculus to partial differential equations. It valuable resource for students and researchers alike.
Provides a comprehensive overview of classical mechanics and relativity. It covers the basic concepts and equations, and it includes a number of solved problems. It valuable resource for students and researchers alike.
Provides a clear and concise introduction to fluid mechanics. It covers the basic concepts and equations, and it includes a number of solved problems. It useful reference for students and engineers.
Provides a clear and concise introduction to mathematical methods for physics. It covers a wide range of topics, from vector calculus to partial differential equations. It useful reference for students and researchers alike.

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