I solved the N body problem with Python. My code works perfectly but I have to write manually line animation for each body. I would like to make a loop instead but I did not succeed. Here is the code :

```
import numpy as np
import matplotlib.pyplot as plt
from matplotlib import animation
from scipy.integrate import odeint
from mpl_toolkits import mplot3d
from mpl_toolkits.mplot3d import Axes3D
## Constantes dimensionnées du système
N = 4
G = 6.674e-11
M = np.random.uniform(low=1e30, high=3e30, size=N)
## Constantes adimensionnées du système
G = G * (6e24 * (365*24*60*60)**2) / (1.496e11)**3
M = M/6e24
## Conditions initiales
ti = 0
tf = 10
n = 500
dt = (tf-ti)/n
T = np.linspace(ti, tf, n)
R0 = np.random.uniform(low=-4, high=4, size=3*N)
V0 = np.random.uniform(low=-1, high=1, size=3*N)
Y0 = np.append(R0,V0)
def NCorps(Yk, t):
#Création tableau contenant les positions de tous les corps
Rk = np.zeros((3,N))
a = 0
b = 0
c = 0
for i in range(0,3*N):
if i%3 == 0:
Rk[0,a] = Yk[i]
a = a+1
if i%3 == 1:
Rk[1,b] = Yk[i]
b = b+1
if i%3 == 2:
Rk[2,c] = Yk[i]
c = c+1
#Création tableau contenant les vitesses et les accélérations de tous les corps
Sk = []
for i in range(3*N, 6*N):
Sk.append(Yk[i])
for i in range(0, N):
axk = 0
ayk = 0
azk = 0
for j in range(0, N):
if j != i:
axk = axk - G*M[j]*(Rk[0,i]-Rk[0,j])/((Rk[0,i]-Rk[0,j])**2+(Rk[1,i]-Rk[1,j])**2+(Rk[2,i]-Rk[2,j])**2)**(3/2)
ayk = ayk - G*M[j]*(Rk[1,i]-Rk[1,j])/((Rk[0,i]-Rk[0,j])**2+(Rk[1,i]-Rk[1,j])**2+(Rk[2,i]-Rk[2,j])**2)**(3/2)
azk = azk - G*M[j]*(Rk[2,i]-Rk[2,j])/((Rk[0,i]-Rk[0,j])**2+(Rk[1,i]-Rk[1,j])**2+(Rk[2,i]-Rk[2,j])**2)**(3/2)
Sk.append(axk)
Sk.append(ayk)
Sk.append(azk)
return Sk
Y = odeint(NCorps, Y0, T)
## Plot 3D image
fig = plt.figure()
ax = plt.axes(projection = '3d')
a=0
for i in range(0, 3*N):
if i%3 == 0:
ax.plot3D(Y[:,i], Y[:,i+1], Y[:,i+2], label = "Corps " + str(a))
ax.scatter(Y[-1,i], Y[-1,i+1], Y[-1,i+2], marker = "o", s = 75)
a = a+1
ax.set_xlim3d(-7, 7)
ax.set_ylim3d(-7, 7)
ax.set_zlim3d(-7, 7)
ax.set_xlabel("x (UA)")
ax.set_ylabel("y (UA)")
ax.set_zlabel("z (UA)")
plt.legend()
## Plot 3D animation
fig = plt.figure()
ax = plt.axes(projection = '3d')
ax.set_xlim3d(-7, 7)
ax.set_ylim3d(-7, 7)
ax.set_zlim3d(-7, 7)
ax.set_xlabel("x (UA)")
ax.set_ylabel("y (UA)")
ax.set_zlabel("z (UA)")
trail = [50]*N
###########################################################################################
########## HERE IS MY PROBLEM : HOW TO MAKE Animate3D FUNCTION WORK FOR N BODY ? ##########
###########################################################################################
def Animate3D(k):
ligne1.set_data(Y[k:max(1,k-trail[0]):-1, 0], Y[k:max(1,k-trail[0]):-1, 1])
ligne1.set_3d_properties(Y[k:max(1,k-trail[0]):-1, 2])
ligne2.set_data(Y[k:max(1,k-trail[1]):-1, 3], Y[k:max(1,k-trail[1]):-1, 4])
ligne2.set_3d_properties(Y[k:max(1,k-trail[1]):-1, 5])
ligne3.set_data(Y[k:max(1,k-trail[2]):-1, 6], Y[k:max(1,k-trail[2]):-1, 7])
ligne3.set_3d_properties(Y[k:max(1,k-trail[2]):-1, 8])
return (ligne1, ligne2, ligne3)
ligne1, = ax.plot([], [], "o-", markevery = 10000)
ligne2, = ax.plot([], [], "o-", markevery = 10000)
ligne3, = ax.plot([], [], "o-", markevery = 10000)
anim3D = animation.FuncAnimation(fig, Animate3D, frames = n, interval = 30, blit = False)
plt.show()
```

As you can see in the last part, I have no idea how to generalize the Animate3D function for the N body. I wanted to create a loop like the one bellow :

```
j=0
lignes = []
for i in range(0, N):
lignes.append(ligne + i)
def Animate3D(k):
for i in range(0, 3*N):
if i%3 == 0:
ligne + i + .set_data(Y[k:max(1,k-trail[j]):-1, i], Y[k:max(1,k-trail[j]):-1, i+1])
ligne + i + .set_3d_properties(Y[k:max(1,k-trail[j]):-1, i+2])
j=j+1
return lignes
for i in range(0, N):
ligne + i + , = ax.plot([], [], "o-", markevery = 10000)
```

Obviously it does not work.

obviously it does not work" should be substituted with the explicit error you get.`linge + i + .set_data()`

is a severe misunderstanding of python syntax. Just create a list of objects, e.g.,`linge = [ax.plot(...)[0] for _ in range(3*N)]`

and access them by their index. No need to hardcode`linge1`

,`linge2`

, etc.