Alright, just getting into physics here in Unity and Ive been through Unity's forums as well, however I cant figure out how to create this specific gravity related effect -

I have these rigid bodies of mass 100 that I am able to push off the platform (my game is a bunch of platforms set in space) into open space. Because they are checked for affected by gravity, they fall.

What I need is for the objects to slide off the platform, fall a little bit slowly but then bob up and stay there floating. Like if pushed off in space, but they cant keep going. Just bob down, then up, stay and float.

This seems to be a lot more complicated than I thought, as Ive played with gravity and with high values they fall straight down (not out, obviously) and low values they float up above when pushed off. There doesn't seem to be a sweet spot where they neither go down or up, just bob.

How can I achieve this? My masses are 100.

  • see if you can change gravity modifier of rigidbodies using a mathf.pingpong – Bizhan Nov 13 '16 at 10:18
  • Sounds you want to create the same effect as dropping something that floats in water. Have you tried that approach? – pingul Nov 13 '16 at 14:57
  • yeah thats what I need - Ive researched liquid voxels but how would one create water physics? – skyguy Nov 13 '16 at 15:30
  • @skyguy Ah I missed your response. Please use the @ so I get notified. There's probably many different ways to approximate water, but I think it should be more than enough to simply use a potential based on object volume, think Archimedes' principle en.wikipedia.org/wiki/Archimedes%27_principle. Have you tried that? – pingul Nov 15 '16 at 12:38
  • @pingul right, but would I modify the gravity for the specific object based on that, or in code what would I do? – skyguy Nov 17 '16 at 15:20

My suggestion is to implement a force function that tries to resemble Arkimedes' principle. The key is that the potential is dependant on how far down the object is: the further down into the water the object is, the more lift force. As such, the key function here (and the most tricky one) is volumeBeneathSurface.

double liftForce(object)
    const double waterLevel = 0.0;
    const double density = 1000.0; // kg/m^3 -- using water atm

    double vol = volumeBeneathSurface(object, waterLevel);

    double displacedMass = vol*density; // density = m/vol
    double displacedWeight = displacedMass*gravity; // F = m*a
    return displacedWeight;

Now, the tricky part here can be to calculate what amount of volume is beneath the water surface. Imagine a really tricky geometry that might be rotated -- it can become as complicated as you want. The simplest case is probably to approximate your shape by a non-rotating box.

double volumeBeneathSurface(object, double surfaceLevel)
     // assuming the object has `height`, `width`, and `depth`
     // also assuming its coordinate is references from the center of the object
     double r = object.y - surfaceLevel - object.height/2.0; // How much of the object is beneath the surface
     if (r > 0)
         return 0.0; // the object is purely above
     else if (r < object.height)
         return object.height*object.width*object.depth; // the whole object is beneath
         return abs(r)*object.width*object.depth; // partly under

Realistic things in water bobs up and down a little, but eventually the motion fades away. This is due to the energy transferring to the object and creating waves in the water. We have no such effect here, so most likely our object will bob up and down forever. What you could to is add some extra friction to the object and the motion should fade out.

  • thank you, I'll definitely use your suggestions. How would you tie that into altering gravity? – skyguy Nov 20 '16 at 14:48
  • 1
    @skyguy The gravity is used in the first part, displacedWeight = displacedMass*gravity so you could change it there. I should note that even though gravity is varying all around us, it varies so slowly that it can be approximated as constant in most use cases without trouble. – pingul Nov 20 '16 at 18:23
  • Awesome, thanks! – skyguy Nov 20 '16 at 20:16

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