This isn't exactly your expected output but you might be able to use it.
If you store the numbers as Decimals you can just format them to scientific notation and discard everything but the base.
>>> from decimal import Decimal
>>> numbers = ['.9', '.08', '.00024', '.00000507']
>>> decimals = [Decimal(n) for n in numbers]
>>> [format(d, '.2E')[:4] for d in decimals]
['9.00', '8.00', '2.40', '5.07']
I showed them formatted as strings here because it's more precise to instantiate Decimals that way, as it sidesteps floating point issues. If you start with numbers as a list of floats, in the third step you get:
[Decimal('0.90000000000000002220446049250313080847263336181640625'), Decimal('0.08000000000000000166533453693773481063544750213623046875'), Decimal('0.00024000000000000000608020578329870886591379530727863311767578125'), Decimal('0.0000050699999999999997388091914352070688210005755536258220672607421875')]
In this case it gives you the same answer, but it might not always.