Sound Engineering
Sound Engineering

90,000


6 Months Course
72 Sessions
2 hours in each session Class Duration
Contents
  1. Vibrations to Sound - Explanation & Video
  2. Propogation of Sound - Explanation & Video
  3. Speed of Sound - Video
  4. Waveforms - Sine, Square, Triangle, Sawtooth, Semisine - Video
  5. Amplitude, Wavelength, Frequency, Calcuation of Wavelength from frequency - Draw on Board
  6. Harmonics, Overtones, Octaves - Videos
  1. Concept - Explanation
  2. dB SPL - Explanation & Draw on Board
  3. Dynamic Range, Signal to Noise Ratio, Headroom - Draw on Board & Detailed Images
  4. Weighted Average - Draw on Board & Explain
  5. Boundary Effect - Explanation & Demonstation
  6. Inverse Square Law - Explanation & Demonstration using a Loudspeaker
  7. Impedance, Standard Operating Levels - Detailed Images
  1. Concept - Explanation
  2. Types - Vu, dBFS, PPM, LUFS - Detailed Images
  3. Phase, Stereo Spread, Sprectral Analysis - Detailed Images
  4. Applications - Explanation and Demonstration
  1. Cables - Detailed Images
  2. Connectors - Detailed Images
  3. Applications - Explanation & Detailed Images
  1. Types - Explanation
  2. Construction - Draw on Board and Detailed Images
  3. Polar Patterns - Detailed Images and Demonstration
  4. Microphone Techniques - Explanation, Detailed Images and Demonstration
  5. Stereo Microphone Techniques - Detailed Images and Demonstration
  1. Types - Active, Passive - Explanation, Detailed Images
  2. Drive Units - Detailed Images
  3. Crossovers - Active, Passive - Explanation, Detailed Images
  4. Cabinets - Detailed Images
  1. Signal Path - Explanation & Draw on Board
  2. Analogue and Digital Consoles - Explanation, Images and Demonstration
  3. Inline and Split Consoles - Explanation, Images and Demonstration
  4. Channel Strips - Explanation, Images and Demonstration
  5. Input and Output Routing - Explanation, Images and Demonstration
  6. Auxes and Busses - Explanation, Images and Demonstration
  7. Master Section - Explanation, Images and Demonstration
  8. Control Surfaces - Explanation, Images and Demonstration
  1. A/D - D/A Conversion - Explanation & Draw on Board
  2. Sample Rate, Bit Depth, Bitrate - Explanation & Draw on Board
  3. Quantization, Dither - Explanation & Draw on Board
  4. Nyquist - Explanation & Draw on Board
  5. Digital Protocols - Explanation & Draw on Board
  6. Digital Cables - Detailed Images
  1. Introduction to Acoustics
  2. Absorption, Diffusion, Reflection
  3. Isolation
  4. Studio Construction - Walls and Partitions
    • Design Layout
    • Sound Proofing,
    • Acoustic Treatment - Panels
    • Wiring Layout for Audio
    • Wiring Layout for Electricals
    • Electrical Load Distribution and Circuits
    • Door and Windows
    • Air Conditioning
    • Room Calibration
Digital Audio Workstations :
PROTOOLS, NUENDO, LOGIC, CUBASE
  1. What is Mixing?
  2. Why do we need to Mix?
  3. The Concept of Signal Processing - Dynamics, EQ, Reverbs, Delay, Phasing, Flanging, Distortion
  4. The Concept of Balance
    • Levels - Dynamic Range - Using Compression and Gain
    • Tonal - EQ - Uses and Technique
    • Ambiance - Reverb - Uses and Techniques
    • Modulation - Delay, Flange, Phasing, Distortion - Uses and Techniques
  5. Panorama
    • Concept and PAN Law
    • L-C-R Panning
    • Mix in Mono
    • Phase Consistency
  6. The Master Channel
  7. Delivery of Mix and Formats
  1. What is Mastering?
  2. Mastering vs Mixing
  3. Prerequisites for a Mastering Session
  4. Audio Restoration
  5. Stereo Imaging
  6. Volume, Loudness and Limiting
  7. Dither
  8. Delivery File Formats
  1. Concept
  2. Sound Design
  3. Foley
  4. Audio Restoration
  5. Film and Video Formats
  6. Mix and Delivery

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