# Python: Questions about math and negative power

I am trying to implement and algorithm and I am not sure how to implement in Python.

The algorithm is given as `[e ^ -ax] * [((e ^ by) - (e ^ -ax)) / ((e ^ by) + (e ^ -ax))]`

Where:

• `^` represents power of
• `e` is Euler's number with a value of `2.718`
• `a` and `b` are constants and given as `a = 0.2` and `b = 0.45`
• but `x` and `y` are variables where `a` and `b` will always be `>= 0`

This is what I have come up with but I am not sure if this is correct. It would be great if anyone can tell me if it's correct or is there an easier way to do this as it looks very complicated right now.

``````valueA = 0.2 * x
valueB = 0.45 * y

results = math.pow(math.e, -valueA) * (math.pow(math.e, valueB) - math.pow(math.e, -valueB)) / (math.pow(math.e, valueA) + math.pow(math.e, -valueB))
``````
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## 4 Answers

For computing ex, there's no need to write:

``````math.pow(math.e, x)
``````

Instead, use `math.exp` and write:

``````math.exp(x)
``````

or:

``````from math import exp
exp(x)
``````
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Is it still the same if x is a negative value? –  Cryssie Jan 18 '13 at 12:03
Yes. Try it and see for yourself, for example `print exp(-1), 1/e``0.367879441171 0.367879441171` –  Gareth Rees Jan 18 '13 at 12:13

You can use the `**` operator:

``````In [48]: math.pow(2,10)
Out[48]: 1024.0

In [49]: 2**10              #replace the '2' by math.e or simply e
Out[49]: 1024
``````
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You can get rid of `math.pow` and replace `math.e` with just `e`:

``````from math import e
results = e**-valueA * (e**valueB - e**-valueA) / (e**valueB + e**-valueA)
``````

You could also replace `valueA` with `ax` and `valueB` with `by` as well, to make things even simpler.

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Because powers of Napier's constant (or Euler's constant) are so common, many languages have an `exp` function. So does Python:

``````valueA = 0.2 * x
valueB = 0.45 * y

results = math.exp(-valueA) * (math.exp(valueB) - math.exp(-valueB)) / (math.exp(valueA) + math.exp(-valueB))
``````

`exp` should be more efficient than using `pow`, because its base is hardwired. In fact, `pow` is often defined in terms of `exp` (and `log`) for non-integer arguments, so you avoid the calculation of `math.log(base)`, which is equal to `1` anyway when the base is `e`.

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