It looks like your code is trying to do a little bit more than what you describe - in particular, you *double* any odd numbers. Because you're doing two things to each number (possibly double, sum the digits), you don't want to put it in the list until *both* steps are done. Instead do something like this:

```
for each in mylist:
if each % 2 != 0:
each *= 2
if each >= 10:
each = # sum of digits
newlist.append(each)
```

There's a couple of ways you could sum the digits. You can use `divmod`

to get the quotient and the remainder of the number divided by 10 - the remainder is the units column, the quotient is every column to the left of that:

```
if each >= 10:
q, r = divmod(each, 10)
each = q + r
```

the other way is to get the string representation, which lets you iterate over every digit, convert it *back* to a number and add them:

```
if each >= 10:
each = sum(int(d) for d in str(each))
```

this is possibly easier to understand It *is*, however, a fair bit slower - which might matter if you have a very large amount of input.

These two approaches do work differently if you end up with any three or more digit numbers in the list - for 110, the divmod version will do 11 + 0 = 11, while the string version will do 1 + 1 + 0 = 2.

Also note that *neither* is guaranteed to end up with a single-digit number in the end - for 99, both of these will give you 18. If you want that further reduced to 9, you can change the `if`

to a loop:

```
while each >= 10:
each = sum(int(d) for d in str(each))
```

to do this for the divmod version, you could put it into a recursive function instead:

```
def digit_sum(number):
q, r = divmod(number, 10)
if q > 10:
q = digit_sum(q)
return q+r
```

Making the same change to the `divmod`

version as the string version *appears* to give the same answer in every case I've tried, but I have no idea if this is guaranteed to be the case.