This might help with the second part:

```
import numpy as np
from numpy import *
p=rand(3,4) # this is column-wise so each vector has length 3
sqrt(sum((p[:,np.newaxis,:]-p[:,:,np.newaxis])**2 ,axis=0) )
```

which gives

```
array([[ 0. , 0.37355868, 0.64896708, 1.14974483],
[ 0.37355868, 0. , 0.6277216 , 1.19625254],
[ 0.64896708, 0.6277216 , 0. , 0.77465192],
[ 1.14974483, 1.19625254, 0.77465192, 0. ]])
```

if p was

```
array([[ 0.46193242, 0.11934744, 0.3836483 , 0.84897951],
[ 0.19102709, 0.33050367, 0.36382587, 0.96880535],
[ 0.84963349, 0.79740414, 0.22901247, 0.09652746]])
```

and you can check one of the entries via

```
sqrt(sum ((p[:,0]-p[:,2] )**2 ))
0.64896708223796884
```

The trick is to put newaxis and then do broadcasting.

Good luck!