The `decimal`

module is following the Decimal Arithmetic Specification, which states:

**to-scientific-string – conversion to numeric string**

*[...]*

The coefficient is first converted to a string in base ten using the characters 0 through 9 with no leading zeros (except if its value is zero, in which case a single 0 character is used).
Next, the adjusted exponent is calculated; this is the exponent, plus the number of characters in the converted coefficient, less one. That is, exponent+(clength-1), where clength is the length of the coefficient in decimal digits.

If the exponent is less than or equal to zero and the adjusted exponent is greater than or equal to -6, the number will be converted
to a character form without using exponential notation.

*[...]*

**to-engineering-string – conversion to numeric string**

This operation converts a number to a string, using engineering
notation if an exponent is needed.

The conversion *exactly follows the rules for conversion to scientific
numeric string* except in the case of finite numbers where exponential
notation is used.

Or, in other words:

```
>>> for n in (10 ** e for e in range(-1, -8, -1)):
... d = Decimal(str(n))
... print d.to_eng_string()
...
0.1
0.01
0.001
0.0001
0.00001
0.000001
100E-9
```