Rem 2D collisions
fastgraphics
m=6
n=m^2
Dim x(n)
Dim y(n)
Dim vx(n)
Dim vy(n)
Dim mass(n)
Dim colisionflag(n,n)
ed=1
u=0
rem initial variables
for a = 0 to m-1
for b = 0 to m-1
x[u]=50*a+10
y[u]=50*b+10
vx[u]=rand-.5
vy[u]=rand-.5
mass[u]=7
u=u+1
next b
next a
Rem main loop
While 1=1
for u = 0 to n-1
If x[u]<mass[u] or x[u]>(300-mass[u]) then vx[u]=-vx[u]
If y[u]<mass[u] or y[u]>(300-mass[u]) then vy[u]=-vy[u]
x[u]=x[u]+vx[u]
y[u]=y[u]+vy[u]
color rgb (u*7,0,255-u*7)
circle x[u],y[u],mass[u]
next u
refresh
clg
gosub colision
end while
colision:
rem collision detection
for u1 = 0 to n-2
for u2 = u1+1 to n-1
dx = x[u2]-x[u1]
dy = y[u2]-y[u1]
distance = (dx*dx+dy*dy)^.5
if distance < (mass[u1]+mass[u2]) then
if colisionflag[u1,u2]=0 then
rem vx and vy calc
ax=dx/distance
ay=dy/distance
va1=vx[u1]*ax+vy[u1]*ay
vb1=-vx[u1]*ay+vy[u1]*ax
va2=vx[u2]*ax+vy[u2]*ay
vb2=-vx[u2]*ay+vy[u2]*ax
vaP1=va1 + (1+ed)*(va2-va1)/(1+mass[u1]/mass[u2])
vaP2=va2 + (1+ed)*(va1-va2)/(1+mass[u2]/mass[u1])
vx[u1]=vaP1*ax-vb1*ay
vy[u1]=vaP1*ay+vb1*ax
vx[u2]=vaP2*ax-vb2*ay
vy[u2]=vaP2*ay+vb2*ax
colisionflag[u1,u2]=1
end if
else
colisionflag[u1,u2]=0
end if
next u2
next u1
return
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