# Calculate angle (degrees) in Python between line (with slope x) and horizontal

I need to calculate the angle between a line and the horizontal. My high school maths seems to be failing me.

``````import matplotlib.pyplot as plt
import numpy as np

x = [8450.0, 8061.0, 7524.0, 7180.0, 8247.0, 8929.0, 8896.0, 9736.0, 9658.0, 9592.0]
y = range(len(x))

best_fit_line = np.poly1d(np.polyfit(y, x, 1))(y)

slope = (y[-1] - y[0]) / (x[-1] - x[0])
angle = np.arctan(slope)

print 'slope: ' + str(slope)
print 'angle: ' + str(angle)

plt.figure(figsize=(8,6))
plt.plot(x)
plt.plot(best_fit_line, '--', color='r')
plt.show()
``````

The results are as follow:

``````slope: 0.00788091068301
angle: 0.00788074753125
``````

I need the angle between the horizontal and the red dotted line. Just by looking at it, it should probably be something between 30-45 degrees. What am I doing wrong?

* regarding `slope = (y[-1] - y[0]) / (x[-1] - x[0])`, I have also tried `numpy.diff` and `scipy.stats.linregress`, but no success either.

• You've forgotten to account for the scale of your chart. – jtbandes Mar 6 '16 at 9:53
• Also, please use arctan2! – jtbandes Mar 6 '16 at 9:53
• hi jtbandes, how do I account for the scale of my chart? – ljc Mar 6 '16 at 9:57

The line goes in x-direction from 0 to 9 and in y-direction from 7500 to 9500. Therefore your `slope` is only 0.00788091068301 and not 0.57 for about 30°. Your calculations are correct, but better use arctan2:
``````angle = np.rad2deg(np.arctan2(y[-1] - y[0], x[-1] - x[0]))