We have two masses of equal mass 0.1kg connected by a stiff spring with k = 10^5 N/m. The rest length of the spring (and the initial distance between the two masses) is d0 = 0.15m

Mass 1 has initial velocity (2.77, 1.25, 0) m/s while mass 2 has initial velocity (1.25, 4, 0) m/s.

I want to write a code that simulates the flight of this system under gravity while ignoring air resistance. I also want to place a third sphere located at the center of mass of the system.

Here's what I've written so far:

```
from visual import *
mass1 = sphere(radius = 0.01)
mass2 = sphere(pos = (0.15, 0, 0), radius = 0.01)
COM = sphere(pos = (0.15/2, 0, 0), radius = 0.01)
mass1.m = 0.1
mass2.m = 0.1
k = 1*10**5
mass1.v = vector(2.77, 1.25, 0)
mass2.v = vector(1.25, 4, 0)
mass1.p = mass1.v*mass1.m
mass2.p = mass2.v*mass2.m
dt = 0.0001
t = 0
while 1:
g = 9.8
d = (mass1.pos-mass2.pos)/mag(mass1.pos-mass2.pos)
Ft12 = mass1.m*d*k*0.15
Ft21 = mass2.m*d*k*0.15
Fnet = Ft12 + Ft21
mass1.p += Fnet*dt
mass2.p += Fnet*dt
mass1.vA = 0.5*(mass1.v + (mass1.p/mass1.m))
mass2.vA = 0.5*(mass1.v + (mass2.p/mass2.m))
mass1.pos += mass1.vA*dt
mass2.pos += mass2.vA*dt
COM.pos = (mass1.pos-mass2.pos)/2 + mass1.pos
t += dt
```

Ft12 is the force of tension from ball 1 to ball 2, and Ft21 is from 2 to 1. Of course, I wouldn't be posting this if I were getting accurate results, but I'm not even getting results that I can readily observe. The screen just goes blank very quickly and I have no chance to see what's happening. I basically want to this system to be "thrown" under the effects of gravity, in which you can imagine that the COM's trajectory will be that of a parabola. Any help will be greatly appreciated. If I'm getting the forces wrong, or I need to add some in some places, please let me know!

Thank you, everyone!