How can I write 1-e^(-value1^2/2*value2^2) in Python?

I don't know how to use power operator and e.


7 Answers 7


You can use exp(x) function of math library, which is same as e^x. Hence you may write your code as:

import math
x.append(1 - math.exp( -0.5 * (value1*value2)**2))

I have modified the equation by replacing 1/2 as 0.5. Else for Python <2.7, we'll have to explicitly type cast the division value to float because Python round of the result of division of two int as integer. For example: 1/2 gives 0 in python 2.7 and below.


Python's power operator is ** and Euler's number is math.e, so:

 from math import e
  • 5
    You should use math.exp(stuff) in preference to math.e**stuff. It's likely to be both more accurate and faster. Aug 26, 2016 at 12:15

Just saying: numpy has this too. So no need to import math if you already did import numpy as np:

>>> np.exp(1)
  • 1
    The Numpy version has the advantage of using vectorisation when using Numpy arrays.
    – Leo
    May 12, 2022 at 11:12

Power is ** and e^ is math.exp:

x.append(1 - math.exp(-0.5 * (value1*value2)**2))

math.e or from math import e (= 2.718281…)

The two expressions math.exp(x) and e**x are equivalent however:
Return e raised to the power x, where e = 2.718281… is the base of natural logarithms. This is usually more accurate than math.e ** x or pow(math.e, x). docs.python

for power use ** (3**2 = 9), not " ^ "
" ^ " is a bitwise XOR operator (& and, | or), it works logicaly with bits. So for example 10^4=14 (maybe unexpectedly) → consider the bitwise depiction:

(0000 1010 ^ 0000 0100 = 0000 1110) programiz


Just to add, numpy also has np.e


In my case, the exponent happens to be complex number with angle expressed in radians. So my approach was:

import cmath 
theta = cmath.pi/4
output = cmath.exp(theta*1j)   # LaTeX: $e^{i\theta}$ 
print(output)                  # (0.7071067811865476+0.7071067811865476j)

Note: Use 1j instead of j since python throws NameError for j. And used cmath instead of math.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.