Cinema 4D XPresso: Thinking Particles
Product Description
In this series of tutorials, which offers you more than 5 hours of videos, we will go through the creation of advanced particles effects in Cinema 4D.
Also there are several videos, that will explain how you can solve some issues using XPresso: creating Vertex maps, working with splines using Python nodes, working with Mograph-effectors etc.
This course is for Cinema 4D users who know the basics of XPresso. For those who want to expand their experience of the program, who want to extract from its functionality the maximum of opportunities.
Additional info
Language: English
Duration: 5 hours 50 min
Video format: HD 720p
Autors: Mike Udin, Sergey Shipov
English translation: Alexander Kolyasa
Availability: Instant Download
Project files: Included
Videos playlist
Ray Collision
Moving particles between points in space and the surface of geometry.
Vertex Map. Bubbles effect
Inflating bubbles effect below the surface.
Animated Particles. Bubbles
Practical work with animated particles.
Spirals Rain
Particles motion along a spiral.
Vertex Map. Create with Falloff
Manipulating vertex maps using XPresso Falloff Node features.
Hadron Collider particles collision
Effect of colliding particles.
Cartoon smoke
Stylized smoke animation.
Spline Emitter Tips
Using spline as particles emitter.
Center Gravity and Dividing Cells
Dividing cell effects and moving particles to center.
Missile launch
Missiles launch simulation.
Particles velocity and Color
How to define particles acceleration and color from a moving emitter.
Animated Particles. Circles
Practical work with animated particles.
Spline Connect Points
Dynamics of splines connected to particles.
Sample Node
Using effectors to change properties of non-Mograph objects.
Surface Flow
Moving particles along the geometry surface.
Heat Head
Change the surface of the model with deformation and emission of particles.
Spline Python Node
Spline segment generator. Creating a crystal lattice.
Curl Python Node
Particles swirl movement along the surface.