I don't know if this is a bug with matplotlib/python but running the following from emacs removes my ability to kill the matplotlib process by clicking [x] on the figure window, it has no effect. Is there a command (I googled, no luck) for terminating a specific process that emacs has launched? I can kill the process by finding the buffer and doing `C-x k`

but that is a bit of a hassle, any way to kill ALL running python processes?

```
#Simple circular box simulator, part of part_sim
#Restructure to import into gravity() or coloumb () or wind() or pressure()
#Or to use all forces: sim_full()
#Note: Implement crashing as backbone to all forces
import numpy as np
import matplotlib.pyplot as plt
from scipy.spatial.distance import pdist, squareform
N = 100 #Number of particles
R = 10000 #Box width
pR= 5 #Particle radius
r = np.random.randint(0, R, (N,2)) #Position vector
v = np.random.randint(-R/100,R/100,(N,2)) #velocity vector
a = np.array([0,-10]) #Forces
v_limit = R/2 #Speedlimit
plt.ion()
line, = plt.plot([],'o')
line2, = plt.plot([],'o') #Track a particle
plt.axis([0,R+pR,0,R+pR]
while True:
v=v+a #Advance
r=r+v
#Collision tests
r_hit_x0 = np.where(r[:,0]<0) #Hit floor?
r_hit_x1 = np.where(r[:,0]>R) #Hit roof?
r_hit_LR = np.where(r[:,1]<0) #Left wall?
r_hit_RR = np.where(r[:,1]>R) #Right wall?
#Stop at walls
r[r_hit_x0,0] = 0
r[r_hit_x1,0] = R
r[r_hit_LR,1] = 0
r[r_hit_RR,1] = R
#Reverse velocities
v[r_hit_x0,0] = -0.9*v[r_hit_x0,0]
v[r_hit_x1,0] = -v[r_hit_x1,0]
v[r_hit_LR,1] = -0.95*v[r_hit_LR,1]
v[r_hit_RR,1] = -0.99*v[r_hit_RR,1]
#Collisions
D = squareform(pdist(r))
ind1, ind2 = np.where(D < pR)
unique = (ind1 < ind2)
ind1 = ind1[unique]
ind2 = ind2[unique]
for i1, i2 in zip(ind1, ind2):
eps = np.random.rand()
vtot= v[i1,:]+v[i2,:]
v[i1,:] = -(1-eps)*vtot
v[i2,:] = -eps*vtot
line.set_ydata(r[:,1])
line.set_xdata(r[:,0])
line2.set_ydata(r[:N/5,1])
line2.set_xdata(r[:N/5,0])
plt.draw()
```