I have seen the great tutorial by Peter Colling Ridge on

http://www.petercollingridge.co.uk/pygame-physics-simulation/

and I am extending the PyParticles script

The code is available on the site(for free), I am using PyParticles4.py

## Classes used in the tutorial

**The Particle Class**

Circular 2d objects with radius,mass,velocity,location

**The Spring Class**

A spring that binds 2 objects (Particles) and uses the **Hooke's law** (F = -kx) to determine the interaction between them

**The Environment Class**

The Environment where the Particles interact

I was wondering if I could to use 2 Particles and make a 'Rod' class (like the Spring class in the tutorial) that had a specific length and didn't allow the particles to come closer go further than that (specified) length.

**Also,**

Appling a force (when needed) to each Particle such that if one is pulled toward the left, so does the other, but Realistically..

Much like if a 2 different types of balls were joined(from the center) using a steel rod, but in 2-d..

And I **don't want to use 3rd party modules**

Thanks in advance..

**EDIT/UPDATE:**

Tried to apply constraint theorem (it failed)

Here's the code:

```
class Rod:
def __init__(self, p1, p2, length=50):
self.p1 = p1
self.p2 = p2
self.length = length
def update(self):
'Updates The Rod and Particles'
# Temp store of co-ords of Particles involved
x1 = self.p1.x
x2 = self.p2.x
###### Same for Y #######
y1 = self.p1.y
y2 = self.p2.y
# Calculation of d1,d2,d3 and final values (x2,y2)
# from currently known values(x1,y1)...
# From Constraint algorithm(see @HristoIliev's comment)
dx1 = x2 - x1
dy1 = y2 - y1
# the d1, d2, d3
d1 = math.hypot(dx1,dy1)
d2 = abs(d1)
d3 = (d2-self.length)/d2
x1 = x1 + 0.5*d1*d3
x2 = x2 - 0.5*d1*d3
y1 = y1 + 0.5*d1*d3
y2 = y1 - 0.5*d1*d3
# Reassign next positions
self.p1.x = x1
self.p2.x = x2
###### Same for Y #######
self.p1.y = y1
self.p2.y = y2
```