Introduction to Maya Fluids

Introduction to Maya Fluids, available at Free, has an average rating of 4.83, with 6 lectures, based on 9 reviews, and has 1460 subscribers.

You will learn about Introduction to Maya fluids with nparticle Goal and Expression Creating Cloud with helps of Maya Fluids How to work together with Maya fluids and nparticle Maya nparticle and Expression This course is ideal for individuals who are Beginners It is particularly useful for Beginners.

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Summary

Title: Introduction to Maya Fluids

Price: Free

Average Rating: 4.83

Number of Lectures: 6

Number of Published Lectures: 6

Number of Curriculum Items: 6

Number of Published Curriculum Objects: 6

Original Price: Free

Quality Status: approved

Status: Live

What You Will Learn

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A. For Over All Quality 1. Base Resolution 2. Hi Details Solver 3. Substeps /////////////////////////////////////////////////////////////////////////////////////// B. Fluid Dynamic Simulation attributes 1.Gravity The Gravity setting is a built-in gravitational constant that simulates the gravitational attraction of the mass of the world in which the simulation is occurring. Negative values cause a downward pull (relative to the world coordinate system). If Gravity is zero, Density Buoyancy and Temperature Buoyancy have no effect 2.Viscosity Viscosity represents the resistance of the fluid to flow, or how thick, and non-liquid the material is. When this value is high, the fluid flows like tar. When this value is small, the fluid flows more like water. 3.Friction Defines internal friction used in Velocity solving. 4.Damp Defines the amount the Velocity solution. Small amounts of damping can be useful when boundaries are open to keep strong winds from building up and leading to instability. ///////////////////////////////////////////////////////////////////////////////////////////// C. Content Details Density Important Section 1. Density Scale Over All Scale 2. Buoyancy Help to expend Fast Positive And Negative Side 3. Dissipation Disappear of Fluids 4. Diffusion Crate Blurriness effect inside Container 5. Density Pressure Outward Furse For Expend Fluids(explosion, Blast, Dense Smoke) 6. Density Tension For Help to create Spherical shape, Rounded Shapes 7. Tension Force It will help to smooth and Improve Density Tension 8. Gradient Force All About Air //////////////////////////////////////////////////////////////////////////////////////////////// D. Temperature 1.Temperature Scale Multiplies the Temperature values defined in the container. 2.Buoyancy Defines built-in buoyancy strength for Temperature solving. 3.Pressure Pressure simulates the increase in pressure that results from the increasing temperature of a gas, which causes the fluid to expand quickly. To see the full effects of Pressure in the fluid, turn on Forward Advection. Pressure is useful for explosion effects as it can cause a small amount of emitted fluid to quickly expand with turbulent motion. 4.Dissipation Defines the rate at which the Temperature gradually dissipates in a grid. At each time step, Temperature is removed from each voxel (the Temperature value becomes smaller). 5.Pressure Threshold Specifies the temperature value at which Pressure is applied on a per voxel-basis. For voxels that have temperature lower than Pressure Threshold, no Pressure in applied. 6.Diffusion Defines the rate at which the Temperature diffuses between voxels in a Dynamic Grid. 7.Turbulence Multiplier on the turbulence applied to the Temperature. 8.Noise Randomizes the temperature values of voxels each simulated step. Noise is applied to temperature in constant amounts that are not affected by changes in velocity. You can use Noise to add detail to smooth flowing effects and to the texture grids. Noise can creates effects similar to Turbulence, but differs in the way it creates randomization. Noise randomizes temperature values each step, while Turbulence randomizes the velocity based on the Temperature grid. 9.Tension Tension pushes temperature into rounded shapes, making the temperature boundaries more defined in the fluid. When set to high values, Tension can force fluid temperature into individual areas of in the grid. The effect of Tension in a fluid effect is similar to the effect of surface tension in liquids. Tension does not affect velocity in voxels. You can use Tension to add puffiness to cloud and smoke effects. Tension can also be used to remove artifacts that appear when using High Detail Solve.

Course Curriculum

Chapter 1: MAYA FX

Lecture 1: Emit fluids on nparticle

Lecture 2: Fluids_Emitter_Settings

Lecture 3: Fluids Container Settings

Lecture 4: Apply Volume Curve External Force

Lecture 5: Final Output

Chapter 2: Create Thick Smoke

Lecture 1: Create Thick Burn Effect

Instructors

Jhankar Singh
Instructor

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