Introduction to Acoustics (Part 2)
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Introduction to Acoustics (Part 2) at Coursera Overview
Duration | 13 hours |
Total fee | Free |
Mode of learning | Online |
Difficulty level | Intermediate |
Official Website | Explore Free Course  |
Credential | Certificate |
- Overview
- Highlights
- Course Details
- Curriculum
Introduction to Acoustics (Part 2) at Coursera Highlights
- Earn a shareable certificate upon completion.
- Flexible deadlines according to your schedule.
Introduction to Acoustics (Part 2) at Coursera Course details
- 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.
Introduction to Acoustics (Part 2) at Coursera Curriculum
INTRODUCTION
Introduction
Course Overview
RADIATION
Week 1: Introduction
Lecture 1-1 Part 1. Simple Radiation Problem
Lecture 1-1 Part 2. Breathing Sphere Problem 1
Lecture 1-1 Part 3. Breathing Sphere Problem 2
Lecture 1-2 Part 1. Breathing Sphere Problem 3 (Review)
Lecture 1-2 Part 2. Breathing Sphere Problem 4
Lecture 1-2 Part 3. Trembling Sphere Problem
Week 1 Summary Video
Quiz for Week 1 (Breathing & Trembling Sphere)
K-H Equation & Baffled Piston Problem
Week 2: Introduction
Lecture 2-1 Part 1. Review
Lecture 2-1 Part 2. Kirchhoff-Helmholtz Equation 1
Lecture 2-1 Part 3. Kirchhoff-Helmholtz Equation 2
Lecture 2-2 Part 1. Baffled Piston Problem 1
Lecture 2-2 Part 2. Baffled Piston Problem 2
Lecture 2-2 Part 3. Radiation from a Finite Vibrating Plate
Week 2 Summary Video
Quiz for Week 2 (Piston & Vibrating Plate)
DIFFRACTION AND SCATTERING
Week 3: Introduction
Lecture 3-1 Part 1. Review: Kirchhoff-Helmholtz Equation
Lecture 3-1 Part 2. Diffraction and Scattering 1
Lecture 3-1 Part 3. Diffraction and Scattering 2
Lecture 3-2 Part 1. Diffraction and Scattering 3
Lecture 3-2 Part 2. Summary of Chapter 4 (1)
Lecture 3-2 Part 3. Summary of Chapter 4 (2)
Quiz for Week 3 (Scattering & Diffraction)
REVERBERATION PERIOD AND ITS DESIGN APPLICATION
Week 4: Introduction
Lecture 4-1 Part 1. Acoustically Large Space 1
Lecture 4-1 Part 2. Acoustically Large Space 2
Lecture 4-1 Part 3. Acoustically Large Space 3
Lecture 4-2 Part 1. Sabine's Theorem 1
Lecture 4-2 Part 2. Sabine's Theorem 2
Lecture 4-2 Part 3. Sabine's Theorem 3
Week 4 Summary Video
Quiz for Week 4 (Reverberation period and its application)
WAVE PROPAGATION IN SPACE / DUCT ACOUSTICS
Week 5: Introduction
Lecture 5-1 Part 1. Direct and Reverberant Field 1
Lecture 5-1 Part 2. Direct and Reverberant Field 2
Lecture 5-1 Part 3. Analysis Methods for a Closed Space
Lecture 5-2 Part 1. Helmholtz Resonator
Lecture 5-2 Part 2. Duct Acoustics 1
Lecture 5-3. Duct Acoustics 2 / Summary
Week 5 Summary Video
Final Exam
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