# Python: taking the dot product of vector with numpy

I have taken the dot product of vectors in `Python` many of times, but for some reason, one such `np.dot()` command isn't working.

``````#!/usr/bin/env ipython

import numpy as np
from numpy import linalg as LA
from scipy.optimize import fsolve

Re = 1.496e8  #  semi-major axis of the Earth
Te = 365.25 * 24.0 * 3600.0  #  period of the Earth in sec
mus = 132712000000.0  #  grav param of the Sun

def f(a):
return (2 * np.pi / np.sqrt(mus) * np.sqrt(a ** 3) - Te * 2.0 / 3.0)

a = fsolve(f, 100000000)

e = Re / a - 1

rp = a * (1 - e)
h = np.sqrt(2 * mus) * np.sqrt(Re * rp / (Re + rp))
vE = np.sqrt(mus / Re)
vp = h / Re
vinf = vE - vp

alt = 500.0  #  the flyby distance
rph = 6378 + alt  #  radius at periapsis of the flyby hyperbola
mue = 398600.0  #  grav param of the Earth

eh = 1 + rph * vinf ** 2 / mue

beta = np.arccos(1.0 / eh)

delta = 2.0 * beta

vpvec = np.array([0, -vp, 0])
vinfoutvec = vinf * np.array([-np.sin(delta), np.cos(delta)])
vhpostvec = np.array([vinfoutvec[0], vinfoutvec[1] + vpvec[1]])

r0 = np.array([-Re, 0, 0])
v0 = np.array([vhpostvec[0], vhpostvec[1], 0])
h0vec = np.cross(r0, v0)
h0 = LA.norm(h0vec)

e2vec = np.cross(v0, h0vec) / mus - r0 / LA.norm(r0)
e2 = LA.norm(e2vec)
nu0 = np.arccos(np.dot(e2vec, np.array([1.0, 0, 0])) / e2)

#taking the dot product of the vector, specifying the vector location,
#and pulling the actual coordinate options

#nupost = (np.arccos(np.dot(r0, e2vec) / (Re * e2)) * 180.0 / np.pi)
#nupost = (np.arccos(r0[0] * e2vec[0] / (Re * e2)) * 180.0 / np.pi)
#nupost = (np.arccos(-Re * 0.30029169 / (Re * e2)) * 180.0 / np.pi)
``````

1. I checked that the vectors were of the same dimension and we have that `r0` is `1x3` and so is the `e2vec`. However, whenever I attempt to take the dot product of these two vectors, I receive

``````ValueError                                Traceback (most recent call last)
<ipython-input-13-40977131af32> in <module>()
----> 1 execfile(r'/home/dustin/test.py') # PYTHON-MODE

/home/dustin/test.py in <module>()
26
27 #nupost = (np.arccos(-Re * 0.30029169 / (Re * e2)) * 180.0 / np.pi)
---> 28 nupost = (np.arccos(np.dot(r0, e2vec) / (Re * e2)) * 180.0 / np.pi)
29 #nupost = (np.arccos(r0[0] * e2vec[0] / (Re * e2)) * 180.0 / np.pi)
30

ValueError: matrices are not aligned
``````
2. Then I tried specifying the vector component `r0[0]` and `e2vec[0]` where multiplying these produces a `1x3` vector with the correct answer in the first position. However, I shouldn't be receiving a vector here.

``````In [14]: The eccentricity vector of the new ellipse is [[ 0.30029169  0.14176274  \
0.        ]]
The post flyby true anomaly is [ 154.72877834  115.27122166   90.        ]
``````
3. If I just pull the actual values, everything works perfectly.

I am not a `Python` expert, but why isn't the dot product working in case 1 and why isn't specifying the vector component working in case 2? In my example, I have used both the dot product vector component specification previously with no such issues.

-
Can you include the declarations of all your variables in the code? That would make helping you a lot easier. –  Gustav Larsson Jul 31 '13 at 0:12
Or better yet, just remove most of your code except the failing line, as well as prints of all involved variables right before the line. –  Gustav Larsson Jul 31 '13 at 0:14
Are your vectors 1-dimensional (shape `(3,)`), or 2-dimensional (shape `(1, 3)`)? –  user2357112 Jul 31 '13 at 0:18
Print the shapes. –  user2357112 Jul 31 '13 at 0:22
I only meant remove it from the post. The problem is as pointed out that `e2vec` has shape `(1, 3)`. The quickest fix is to do `e2vec.ravel()` before passed to `np.dot`. –  Gustav Larsson Jul 31 '13 at 0:23
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## 1 Answer

It looks as though `e2vec` is 2D with the shape `(1, 3)`. You need to flatten it before passing it to `np.dot`, which you can do as follows:

``````nupost = (np.arccos(np.dot(r0, e2vec.ravel()) / (Re * e2)) * 180.0 / np.pi)
``````
-
I am confused about 1D with shape (3,) and 2D with shape `(1,3)`. The vectors are both `1x3` so how is `e2vec` of shape 2D? –  dustin Jul 31 '13 at 0:28
The one with shape `(3,)` isn't 1x3 any more than the 2-d one is 1x3x3. Numpy arrays support any number of dimensions (even 0!); `dot` is only dot product for 1-dimensional arrays. –  user2357112 Jul 31 '13 at 0:31
When I say 2D here, I mean number of dimensions in the numpy array and not in a mathematical sense. With that definition in mind, shape `(3,)` is 1D and shape `(1, 3)` is 2D, which is why you need to convert `e2vec` only. –  Gustav Larsson Jul 31 '13 at 1:28
You can also use numpy.vdot. –  littleO Jul 31 '13 at 10:12
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