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Yang-Hann Kim

Learners might have learned the basic concepts of the acoustics from the ‘Introduction to Acoustics (Part 1).’ Now it is time to apply to the real situation and develop their own acoustical application. Learners will analyze the radiation, scattering, and diffraction phenomenon with the Kirchhoff –Helmholtz Equation. Then learners will design their own reverberation room or ducts that fulfill the condition they have set up.

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What's inside

Syllabus

INTRODUCTION
RADIATION
You will be going to learn breathing sphere problem, then compare with the trembling sphere problem.
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K-H Equation & Baffled Piston Problem
First, you will learn Kirchhoff-Helmholtz equation, then you will adapt into the baffled circular piston problem.
DIFFRACTION AND SCATTERING
Using Kirchhoff-Helmholtz equation that you have learned last week, you will apply into diffraction and scattering problem.
REVERBERATION PERIOD AND ITS DESIGN APPLICATION
Now you will learn very practical acoustical phenomenon. With reverberation period and Sabine's theorem, you will be able to design an acoustical room that satisfies given condition.
WAVE PROPAGATION IN SPACE / DUCT ACOUSTICS
For the last, you will learn Helmholtz Resonator and the phenomenon about the duct acoustics

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Delves into topics such as radiation, scattering, and diffraction, which are highly relevant to the field of acoustics
Taught by Yang-Hann Kim, an expert in the acoustics field
Provides hands-on experience in designing reverberation rooms and ducts, which is valuable for practical applications
Requires a strong foundation in basic acoustics concepts, making it suitable for intermediate learners
May require access to specialized software or resources for hands-on activities

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Reviews summary

Introduction to acoustics: well-received course

Learners say this well-received Introduction to Acoustics course is excellent and engaging. The knowledgeable lecturer covers interesting topics in depth and provides a strong foundation in acoustics. However, learners note that the quizzes could be more challenging and include more problems and calculations.
In-depth coverage of topics
"It only miss a small part with some exercises"
"The topics covered fit the criteria"
Knowledgeable and engaging lecturer
"The lecturer is fantastic"
"given the Professor's deep and broad familiarity with the field, approach a sense of conveying an intuitive understanding of the topic"
Well-structured and engaging course
"Good"
"Excellent Session"
"EXCELLENT USEFUL COURSE"
"it is good course to learn acoustic"
"provide the textbook, it really helps you to accomplish the course"
"A great course overall"
Quizzes need more problems and calculations
"There is just a series of true and false"
"with very few problems that one has to use the information in the lecture to calculate"
"I thought the quizzes were too easy"

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 Introduction to Acoustics (Part 2) with these activities:
Review Calculus Concepts
Strengthen calculus skills to enhance understanding of wave equations and acoustic phenomena.
Browse courses on Calculus
Show steps
  • Review notes or textbooks on basic calculus concepts
  • Practice solving calculus problems
  • Seek help from classmates or an online tutor
Form Study Groups for Acoustics Homework and Projects
Collaborate with peers to deepen understanding, tackle complex problems, and enhance learning.
Show steps
  • Identify classmates with similar interests or strengths
  • Schedule regular study sessions
  • Work together to solve homework problems
  • Discuss course concepts and share insights
  • Prepare for exams and projects collectively
Explore Online Tutorials on Acoustics Duct Systems
Supplement lectures with expert-led demonstrations and explanations on acoustic duct behavior.
Show steps
  • Search for tutorials on acoustics duct systems
  • Watch and take notes on selected tutorials
  • Apply concepts to solve problems or design applications
  • Discuss with classmates or instructor
Two other activities
Expand to see all activities and additional details
Show all five activities
Read 'Acoustics: A Textbook for Engineers and Physicists' by Allan D. Pierce
Review foundational concepts and advanced topics in acoustics to enhance understanding of course materials.
Show steps
  • Purchase and obtain the book
  • Read chapters 1-3
  • Summarize key concepts and equations
  • Complete practice problems
  • Discuss with classmates or instructor
Solve Kirchhoff-Helmholtz Equation Problems
Reinforce understanding of wave equations and acoustic phenomena.
Show steps
  • Review lecture notes on Kirchhoff-Helmholtz Equation
  • Attempt practice problems from the textbook
  • Solve additional problems from online resources
  • Discuss solutions with classmates or instructor
  • Apply the equation to real-world acoustic scenarios

Career center

Learners who complete Introduction to Acoustics (Part 2) will develop knowledge and skills that may be useful to these careers:
Architectural Acoustician
Architectural Acousticians design and implement solutions to improve the acoustics of buildings. This course in Acoustics from KAIST will provide Architectural Acousticians with a deeper understanding of the principles of sound propagation and reverberation, which are essential for designing effective acoustical environments.
Noise Control Engineer
Noise Control Engineers design and implement solutions to reduce noise pollution. An understanding of the principles of acoustics is essential for this career, as it allows Noise Control Engineers to identify and mitigate sources of noise pollution. This course from KAIST will provide Noise Control Engineers with a deeper understanding of the principles of acoustics, which can help them to design more effective noise control solutions.
Environmental Engineer
Environmental Engineers work to protect the environment from pollution and other hazards. Noise pollution is a major concern for Environmental Engineers, as it can have a negative impact on human health and the environment. This course from KAIST will provide Environmental Engineers with a deeper understanding of the principles of acoustics, which can help them to develop more effective noise pollution control strategies.
Biomedical Engineer
Biomedical Engineers design and develop medical devices and equipment. Many of these devices use sound waves for imaging and treatment, so an understanding of acoustics is essential. This course from KAIST will provide Biomedical Engineers with a strong foundation in the principles of acoustics, which can help them to design more effective medical devices.
Audiologist
Audiologists diagnose and treat hearing and balance disorders. As such, they must understand the fundamentals of sound waves and their interaction with the human body. This course will provide Audiologists with a deeper understanding of these principles, which can help them in their work.
Musician
Musicians use sound to create music. An understanding of the principles of acoustics can help Musicians to create music that is more pleasing to the ear and more effective in communicating emotions. This course from KAIST will provide Musicians with a deeper understanding of the principles of acoustics, which can help them to improve their musical skills.
Telecommunications Engineer
Telecommunications Engineers design and maintain telecommunications systems, such as telephone networks and internet connections. An understanding of the principles of acoustics is essential for this career, as it allows Telecommunications Engineers to understand how sound is transmitted over telecommunications systems. This course from KAIST will provide Telecommunications Engineers with a deeper understanding of the principles of acoustics, which can help them to design and maintain more reliable and efficient telecommunications systems.
Geophysicist
Geophysicists study the Earth's physical properties, including its structure, composition, and dynamics. Sound waves are used in a variety of geophysical applications, such as seismic imaging and sonar. This course from KAIST will provide Geophysicists with a deeper understanding of the principles of acoustics, which can help them to develop more effective geophysical exploration and monitoring techniques.
Speech Therapist
Speech Therapists diagnose and treat speech and language disorders. An understanding of the principles of acoustics is essential for this career, as it allows Speech Therapists to understand how speech is produced and how to correct speech disorders. This course from KAIST will provide Speech Therapists with a deeper understanding of the principles of acoustics, which can help them to provide more effective treatment for speech and language disorders.
Recording Engineer
Recording Engineers record, mix, and master audio recordings. An understanding of the principles of acoustics is essential for this career, as it allows Recording Engineers to capture and reproduce sound accurately. This course from KAIST will provide Recording Engineers with a deeper understanding of the principles of acoustics, which can help them to produce higher quality recordings.
Teacher of the Deaf
Teachers of the Deaf teach deaf and hard of hearing students how to communicate and learn. An understanding of the principles of acoustics is essential for this career, as it allows Teachers of the Deaf to understand how sound is produced and how to teach deaf and hard of hearing students to listen and speak. This course from KAIST will provide Teachers of the Deaf with a deeper understanding of the principles of acoustics, which can help them to teach deaf and hard of hearing students more effectively.
Building Services Engineer
Building Services Engineers design and maintain the mechanical and electrical systems in buildings, including heating, ventilation, air conditioning, and lighting. Acoustics is an important consideration in the design of these systems, as noise can be a major source of discomfort for occupants. This course from KAIST will provide Building Services Engineers with a deeper understanding of the principles of acoustics, which can help them to design more comfortable and efficient buildings.
Materials Scientist
Materials Scientists develop and improve materials for a variety of applications, including construction, electronics, and medicine. Acoustics is an important consideration in the design of many materials, as the properties of sound waves can be affected by the material's composition and structure. This course from KAIST will provide Materials Scientists with a deeper understanding of the principles of acoustics, which can help them to design more effective materials.
Mechanical Engineer
Mechanical Engineers design and develop mechanical systems, such as engines, turbines, and robots. Acoustics is an important consideration in the design of many mechanical systems, as noise and vibration can be a major source of problems. This course from KAIST will provide Mechanical Engineers with a deeper understanding of the principles of acoustics, which can help them to design more efficient and reliable mechanical systems.
Acoustical Engineer
An Acoustical Engineer designs, develops, and tests soundproofing materials and devices. An understanding of sound waves, their propagation, and how to measure and control them is vital in this career. This course in Acoustics from KAIST will help build a foundation for understanding the fundamentals of sound.

Reading list

We've selected 14 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 Introduction to Acoustics (Part 2).
This textbook provides a comprehensive overview of the field of acoustics, covering topics such as wave propagation, sound absorption and reflection, and acoustic measurements. It valuable resource for students and professionals in the field of acoustics.
This textbook provides a detailed treatment of the principles of sound and vibration analysis, with a focus on practical applications. It valuable resource for students and professionals in the field of acoustics and vibration.
This handbook provides a comprehensive overview of noise control techniques for buildings and manufacturing plants. It valuable resource for architects, engineers, and other professionals involved in the design and construction of noise-sensitive environments.
This textbook provides a comprehensive overview of the field of architectural acoustics, covering topics such as room acoustics, sound reinforcement, and noise control. It valuable resource for students and professionals in the field of architecture and acoustics.
This textbook provides a practical introduction to the field of acoustics, with a focus on applications in architecture, engineering, and environmental science. It valuable resource for students and professionals in these fields.
This textbook provides a comprehensive overview of the acoustics of enclosures, covering topics such as room acoustics, sound reinforcement, and noise control. It valuable resource for students and professionals in the field of acoustics.
This textbook provides a detailed treatment of the principles of electroacoustics, with a focus on applications in sound reinforcement and recording. It valuable resource for students and professionals in the field of acoustics.
This handbook provides a comprehensive overview of the field of acoustics, covering a wide range of topics. It valuable resource for students and professionals in the field of acoustics.
This textbook provides a comprehensive overview of the generation and transmission of low-frequency noise. It valuable resource for students and professionals in the field of acoustics.
This textbook provides a comprehensive overview of the theory and practice of vibration analysis. It valuable resource for students and professionals in the field of engineering.
This textbook provides a comprehensive overview of the field of acoustics and noise control. It valuable resource for students and professionals in the field of acoustics.
This textbook provides a comprehensive overview of the field of noise and vibration control engineering. It valuable resource for students and professionals in the field of acoustics.

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