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Build Stunning Real-time VFX with Unreal Engine 5

You're reading from   Build Stunning Real-time VFX with Unreal Engine 5 Start your journey into Unreal particle systems to create realistic visual effects using Niagara

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Product type Paperback
Published in May 2023
Publisher Packt
ISBN-13 9781801072410
Length 312 pages
Edition 1st Edition
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Author (1):
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Hrishikesh Andurlekar Hrishikesh Andurlekar
Author Profile Icon Hrishikesh Andurlekar
Hrishikesh Andurlekar
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Table of Contents (16) Chapters Close

Preface 1. Part 1: Introduction to Niagara and Particle Systems in Unreal Engine 5
2. Chapter 1: Getting Started with Unreal Engine Particle System Frameworks FREE CHAPTER 3. Chapter 2: Understanding Particle System Concepts 4. Chapter 3: Exploring Niagara Concepts and Architecture 5. Chapter 4: Building Our First Niagara System 6. Chapter 5: Diving into Emitter-System Overrides 7. Part 2: Dive Deeper into Niagara for VFX
8. Chapter 6: Exploring Dynamic Inputs 9. Chapter 7: Creating Custom Niagara Modules 10. Chapter 8: Local Modules and Versioning 11. Chapter 9: Events and Event Handlers 12. Chapter 10: Debugging Workflow in Niagara 13. Chapter 11: Controlling Niagara Particles Using Blueprints 14. Index 15. Other Books You May Enjoy

Understanding Particle System Concepts

Particle systems are a technique used in computer graphics to simulate a variety of phenomena, such as fire, smoke, rain, and explosions. In a game engine, particle systems are used to add realism and visual interest to scenes. The three main functions of particle systems are emission, simulation, and rendering.

Emission is the process of creating and releasing particles from a specific location or object. This is controlled through properties such as emission rate, velocity, and direction. Emission can also be triggered by events, such as collisions or user input.

Simulation refers to the movement and behavior of the particles over time. This can include properties such as gravity, wind, and turbulence, which can be used to create realistic movement patterns. Particles can also be affected by other forces, such as collisions and user-defined behaviors.

Rendering is the process of displaying the particles on the screen. This can be done...

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