Shaping Sound


Book Description

Imagine effortlessly using audio effects to sonically match what you hear in your head. Imagine a state of creative flow as you mix, with the tools simply acting as an extension of your creativity. Imagine confidently recognizing the effects used on commercial songs, and matching their tone and vibe. This practical guide to signal processing dedicates a chapter to each audio effect, including EQ, Compression, Gating, Distortion, Reverb, Delay, and Pitch-Shifting, just to name a few. Numerous well-known songs are referenced throughout, with explanations of how these processors were used to shape them. Go beyond using plug-in presets, tips and tricks, YouTube tutorials, and advice from strangers on audio forums. Filter out the noise so that you can focus on developing your sense of musical and sonic taste. After dedicating some time to learn about and use each processor, you’ll create your own internal sound database to draw from, a sort of mental map. You’ll be better able to create an exciting experience for the listener, reaching them on an emotional level. Most listeners don’t even necessarily care how it sounds, but instead how it makes them feel. Does it make them want to keep listening, sing along, move their bodies, cry, or any other emotional or physical reaction to it? Learning how to work with these audio tools effectively and internalize their sound will expand your potential. It will empower you to use whatever it takes to transform the sound into what you think it needs to be. If it sounds good, it is good.




Shaping Sound


Book Description

Imagine effortlessly using audio effects to sonically match what you hear in your head. Imagine a state of creative flow as you mix, with the tools simply acting as an extension of your creativity. Imagine confidently recognizing the effects used on commercial songs, and matching their tone and vibe.This practical guide to signal processing dedicates a chapter to each audio effect, including EQ, Compression, Gating, Distortion, Reverb, Delay, and Pitch-Shifting, just to name a few. Numerous well-known songs are referenced throughout, with explanations of how these processors were used to shape.Go beyond using plug-in presets, tips and tricks, YouTube tutorials, and advice from strangers on audio forums. Filter out the noise so that you can focus on developing your sense of musical and sonic taste. After dedicating some time to learn about and use each processor, you'll create your own internal sound database to draw from, a sort of mental map. You'll be better able to create an exciting experience for the listener, reaching them on an emotional level. Most listeners don't even necessarily care how it sounds, but instead how it makes them feel. Does it make them want to keep listening, sing along, move their bodies, cry, or any other emotional or physical reaction to it?Learning how to work with these audio tools effectively and internalize their sound will expand your potential. It will empower you to use whatever it takes to transform the sound into what you think it needs to be. If it sounds good, it is good.




Shaping Sound Musicians


Book Description

Publisher description: This text helps lead both students and teachers to a deeper understanding of the music they encounter. This teaching model, developed by the Wisconsin Comprehensive Musicianship Project (CMP), invites music educators, both vetran and novice, to create meaningful, comprehensive lesson plans with the help of five basic points: Analysis, Outcomes, Strategies, Assessment, and Music selection. These points lead to a greater understanding of the music performed while helping teachers provide accountability through creative assessment strategies, program concerts that teach musical and historical concepts, encourage cross-curricular application of music education, and meet National Standards.




Designing Sound


Book Description

A practitioner's guide to the basic principles of creating sound effects using easily accessed free software. Designing Sound teaches students and professional sound designers to understand and create sound effects starting from nothing. Its thesis is that any sound can be generated from first principles, guided by analysis and synthesis. The text takes a practitioner's perspective, exploring the basic principles of making ordinary, everyday sounds using an easily accessed free software. Readers use the Pure Data (Pd) language to construct sound objects, which are more flexible and useful than recordings. Sound is considered as a process, rather than as data—an approach sometimes known as “procedural audio.” Procedural sound is a living sound effect that can run as computer code and be changed in real time according to unpredictable events. Applications include video games, film, animation, and media in which sound is part of an interactive process. The book takes a practical, systematic approach to the subject, teaching by example and providing background information that offers a firm theoretical context for its pragmatic stance. [Many of the examples follow a pattern, beginning with a discussion of the nature and physics of a sound, proceeding through the development of models and the implementation of examples, to the final step of producing a Pure Data program for the desired sound. Different synthesis methods are discussed, analyzed, and refined throughout.] After mastering the techniques presented in Designing Sound, students will be able to build their own sound objects for use in interactive applications and other projects




Shaping Sound in the Studio and Beyond


Book Description

Offers an introduction to studio recording and audio production. This book teaches audio by presenting both the aesthetic and technology elements of recording audio. It helps you understand the technology while helping you train your standards of what good sound is. It covers topics including basic audio theory, signal processing, and, mixing.




Sound and Literature


Book Description

What does it mean to write in and about sound? How can literature, seemingly a silent, visual medium, be sound-bearing? This volume considers these questions by attending to the energy generated by the sonic in literary studies from the late nineteenth century to the present. Sound, whether understood as noise, music, rhythm, voice or vibration, has long shaped literary cultures and their scholarship. In original chapters written by leading scholars in the field, this book tunes in to the literary text as a site of vocalisation, rhythmics and dissonance, as well as an archive of soundscapes, modes of listening, and sound technologies. Sound and Literature is unique for the breadth and plurality of its approach, and for its interrogation and methodological mapping of the field of literary sound studies.




The Art of Recording


Book Description

The Art of Recording articulates and explores the ways recorded sound is different from live sound, and how those differences can enhance music, including surround sound. It presents a system for developing the critical and analytical listening skills necessary to recognize and understand these sound characteristics--the same skills necessary to create quality recordings-- and for talking about or describing sound. The Art of Recording also considers audio recording as a creative process. The reader will learn to guide the artistry of music recording from its beginning as an idea, through its development during the many stages of the recording sequence, to its final form. Take a new and detailed look at many of the greatest recordings of The Beatles, offering insights into how the recording process shaped their music, and how you can gain control over the craft of making great recordings.




Understanding and Crafting the Mix


Book Description

Understanding and Crafting the Mix, 3rd edition provides the framework to identify, evaluate, and shape your recordings with clear and systematic methods. Featuring numerous exercises, this third edition allows you to develop critical listening and analytical skills to gain greater control over the quality of your recordings. Sample production sequences and descriptions of the recording engineer’s role as composer, conductor, and performer provide you with a clear view of the entire recording process. Dr. William Moylan takes an inside look into a range of iconic popular music, thus offering insights into making meaningful sound judgments during recording. His unique focus on the aesthetic of recording and mixing will allow you to immediately and artfully apply his expertise while at the mixing desk. A companion website features recorded tracks to use in exercises, reference materials, additional examples of mixes and sound qualities, and mixed tracks.




Sound


Book Description

Fascinating, accessible survey of the acoustic world from physics and music to zoology and film.




basics of sound and hearing


Book Description

In physics, sound is a vibration that propagates as an acoustic wave, through a transmission medium such as a gas, liquid or solid. In human physiology and psychology, sound is the reception of such waves and their perception by the brain.[1] Only acoustic waves that have frequencies lying between about 20 Hz and 20 kHz, the audio frequency range, elicit an auditory percept in humans. In air at atmospheric pressure, these represent sound waves with wavelengths of 17 meters (56 ft) to 1.7 centimeters (0.67 in). Sound waves above 20 kHz are known as ultrasound and are not audible to humans. Sound waves below 20 Hz are known as infrasound. Different animal species have varying hearing ranges. Acoustics is the interdisciplinary science that deals with the study of mechanical waves in gasses, liquids, and solids including vibration, sound, ultrasound, and infrasound. A scientist who works in the field of acoustics is an acoustician, while someone working in the field of acoustical engineering may be called an acoustical engineer.[2] An audio engineer, on the other hand, is concerned with the recording, manipulation, mixing, and reproduction of sound. Applications of acoustics are found in almost all aspects of modern society, subdisciplines include aeroacoustics, audio signal processing, architectural acoustics, bioacoustics, electro-acoustics, environmental noise, musical acoustics, noise control, psychoacoustics, speech, ultrasound, underwater acoustics, and vibration.