Just want to check I have my theory right before I start implementing.

**Constants:**

`m`

= mass of vertex (all the same - probably set this to radius of node)`k`

= constant edge force.`l`

= length of edge at "energy minimal state".

**Variables:**

`d`

= distance between two vertices.`cl`

= current length of edge.

**Theory:**
Every vertex has a repulsion force on every other vertex which is: `m / (d^2)`

. For every edge it exhibits a force both vertices "dragging" them in the direction to get the edge to the "energy minimal state"; so each vertex: `-k * ((l - cl) / 2)`

.

**Pseudocode:**

```
until energy minimal state
for each vertex v1
for each vertex v2
if v1 != v2
v1.velocity += m / square_distance (v1, v2)
endif
end
end
for each edge e
e.v1.velocity += -k * (delta_min_energy_len (e) / 2)
e.v2.velocity += -k * (delta_min_energy_len (e) / 2)
end
for each vertex v
v.position += (v.velocty * dampening_constant)
end
end
```

**Comments:** So would this work? What should I set `m`

and `k`

to?

`velocity += ...`

needs to have direction supplied. I assume you will get this by multiplying the magnitude of acceleration by (v1 - v2) or (v2 - v1). – LarsH Apr 25 '11 at 16:15