I'm trying to use Python to do some simple statics problems and generate a graph of the results. For some reason, NumPy doesn't accept my data when trying to calculate the standard deviation of my calculated results (but succeeds with the raw data lists). I need to change `yerr=[std(f10)...`

on line 61 to `yerr=[std(solf10)...`

. Every time I try, however, the python environment throws the following error:

```
Traceback (most recent call last):
File "C:\Users\evanlane\Dropbox\School\f13\homework\statics\lab1\data.py", line 70, in <module>
ax.errorbar(x, [solf10avg,solf12avg,solf15avg], yerr=[std(solf10),std(f12),std(f15)], lw=1.5)
File "C:\Program Files\Python33\lib\site-packages\numpy\core\fromnumeric.py", line 2590, in std
keepdims=keepdims)
File "C:\Program Files\Python33\lib\site-packages\numpy\core\_methods.py", line 107, in _std
ret = um.sqrt(ret)
AttributeError: 'Float' object has no attribute 'sqrt'
```

I tried to find out if the data is structured differently with `print(type(f10), type(solf10))`

but that shows them both to be `<class 'list'>`

types. How should I massage the data to fit better?
I'm new to python, so if you have any additional style corrections, please let me know as well.

Full code:

```
# Imports
from sympy import *
from numpy import *
import matplotlib.pyplot as plt
# Constants
g = 9.81
# Given data
l1, l2, l3 = 0.023, 0.07492, 0.0325
mw = 0.220
w = g*mw
# Collected data
m10 = [1540,1500,1400,1400,1670]
m10kg = [x/1000 for x in m10]
m12 = [1220, 1300, 1200, 1050, 900]
m12kg = [x/1000 for x in m12]
m15 = [770, 790, 740, 760, 750]
m15kg = [x/1000 for x in m15]
# Conversion from mass to force in Newtons due to gravity
f10, f12, f15 = [x*g for x in m10kg], [y*g for y in m12kg], [z*g for z in m15kg]
# Averages of the data
f10avg, f12avg, f15avg = mean(f10), mean(f12), mean(f15)
# Instantiate symbolic variables
fr, my = symbols('fr, my')
# Equation of moment about the origin
sumMoments = Eq(fr, (w*l2+my*(l1+l2))/(l1+l2+l3))
# Newtons acting axially on the straw, solved from equation
solf10 = [solve(sumMoments.subs(my,x)) for x in f10]
solf12 = [solve(sumMoments.subs(my,x)) for x in f12]
solf15 = [solve(sumMoments.subs(my,x)) for x in f15]
solf10 = [x for sub1 in solf10 for x in sub1]
solf12 = [x for sub1 in solf12 for x in sub1]
solf15 = [x for sub1 in solf15 for x in sub1]
solf10avg, solf12avg, solf15avg = mean(solf10), mean(solf12), mean(solf15)
# Plotting section
# ------------------
# X positions
x = [10,12,15]
#Uncomment for hand-drawn style
#plt.xkcd()
fig = plt.figure()
ax = fig.add_subplot(111)
offset = .5
ax.errorbar(x, [solf10avg,solf12avg,solf15avg], yerr=[std(f10),std(f12),std(f15)], lw=1.5)
plt.text(x[0],solf10avg + offset, r' $F_{10 cm}=\ %.3f \ N$' %(solf10avg), fontsize=18)
plt.text(x[2],solf15avg + offset, r' $F_{15 cm}=\ %.3f \ N$' %(solf15avg), fontsize=18)
plt.text(x[1],solf12avg + offset, r' $F_{12 cm}=\ %.3f \ N$' %(solf12avg), fontsize=18)
plt.xlim([9,20])
plt.ylim([0,20])
plt.title("Straw Yield Point Test", fontsize=24)
plt.xlabel("Length (cm)", fontsize=18)
plt.ylabel("Axial Force on Straw\n at Yield (N)", fontsize=18)
plt.minorticks_on()
plt.grid(which="both")
#plt.savefig('fig_1.pdf')
plt.show()
```

`list`

s instead of numpy`array`

s? Also, are the length of`f10`

and`solf10`

different? – SethMMorton Oct 14 '13 at 21:55`import *`

is a bad idea, but doing it from both`sympy`

and`numpy`

is a really bad idea, because they both define some of the same names. – asmeurer Oct 15 '13 at 21:19