In the code below I have two Gaussian one red and the other in a purple curve. I am wondering if there is a way in python to combining both Gaussian unto a third curve which is suppose to look like the blue curve (which just serves as an example of a Gaussian supposedly being higher and wider)? Any help will be appreciated.

```
import numpy as np
import scipy.optimize as opt
import matplotlib.pyplot as plt
def gauss(x, p): # p[0]==mean, p[1]==stdev, p[2]==heightg, p[3]==baseline
a = p[2]
mu = p[0]
sig = p[1]
base = p[3]
return a * np.exp(-1.0 * ((x - mu)**2.0) / (2.0 * sig**2.0)) + base
p0 = [6804.5, 1.2, 23.0, 25.3532] # Inital guess is a normal distribution
p02 = [6804.5, 6.5, 5.0, 25.09098]
xp = np.linspace(6780, 6810, 200)
fig = plt.figure()
a1 = fig.add_subplot(111)
a1.plot(xp, gauss(xp, p0), lw=3, alpha=2.5, color='r')
a1.plot(xp, gauss(xp, p02), lw=3, alpha=2.5, color='purple')
a1.set_xlim([6798, 6810])
plt.tight_layout()
plt.show()
```

`gauss(xp,p0) + gauss(xp,p02)`

? – tom10 Aug 6 '13 at 21:19addtworandom variables, the resulting density is theconvolutionof theirdensities. See here for more. – Jean-Claude Arbaut Aug 6 '13 at 22:13ValueError: to_rgba: Invalid rgba arg "(1.0, 0.0, 0.0, 2.5) number in rbga sequence outside 0-1 range– Jean-Claude Arbaut Aug 6 '13 at 22:36