You're reading from The Music Producer's Ultimate Guide to FL Studio 20 Create production-quality music with FL Studio

Product type Paperback

Published in Feb 2021

Publisher Packt

ISBN-13 9781800565326

Length 336 pages

Edition 1st Edition

Languages

Swift

Tools

FL Studio

Concepts

Music Production

Author (1):

Joshua Au-Yeung

View More author details

Table of Contents (18) Chapters

Preface

1. Section 1:Getting Up and Running with FL Studio

2. Chapter 1: Getting Started with FL Studio FREE CHAPTER

3. Chapter 2: Exploring the Browser, Playlist, and Channel Rack

4. Chapter 3: Composing with the Piano Roll

5. Chapter 4: Routing to the Mixer and Applying Automation

6. Section 2:Music Production Fundamentals

7. Chapter 5: Sound Design and Audio Envelopes

8. Chapter 6: Compression, Sidechaining, Limiting, and Equalization

9. Chapter 7: Stereo Width – Panning, Reverb, Delay, Chorus, and Flangers

10. Chapter 8: Recording Live Audio and Vocal Processing

11. Chapter 9: Understanding Vocal Effects

12. Section 3:Postproduction and Publishing Your Music

13. Chapter 10: Creating Your Own Instruments and Effects

14. Chapter 11: Mastering Fundamentals

15. Chapter 12: Branding, Promotion,and Marketing

16. Chapter 13: Publishing and Selling Music Online

17. Other Books You May Enjoy

How do we hear things?

Sound causes air to expand and contract. Air expands under low pressure and compresses under high pressure. Changes in air pressure are useful because we can use devices to measure air pressure. Microphones detect changes in air pressure. Microphones are made up of a diaphragm stretched over a metal plate. As sound waves pass over it, the changes in high and low pressure cause the diaphragm to move back and forth and vibrate. This movement is measured by the device and converted into audio data. The data is then interpreted by your computer. The following figure shows an example of a microphone:

Figure 5.3 – Microphone

Your ears work in a similar fashion to a microphone. Your eardrums encounter air pressure changes, which cause them to vibrate. Your brain interprets these vibrations as sound.

When audio waves meet, they can react to one another. This can result in the following effects: