With your problem solved, I would explain the concept of loop vs tail recursion in general instead, as tail recursion would be a useful technique in general.

Although looping and list comprehension in Python mean it is not likely that you would need tail recursion, it is good to have the idea of it.

The technique of recursively calling a function is called tail recursion. The same thing can be achieved using tail recursion and a loop, but you don't need both.

To do what you want you can use a loop:

```
def ifeveryitems(lst):
for items in lst:
if not isinstance(items,list) or len(items) > 2:
return False
return True
```

Or tail recursion:

```
def ifeveryitems(lst):
if isinstance(items,list) and len(lst)==0:
return True
return isinstance(lst[0],list) and len(lst[0]) <= 2 and ifeveryitems(lst[1:])
```

This function checks if the first item of `lst`

is a list and is of length 2 or less, and then check the rest of the list (`lst[1:]`

) using the function itself. Eventually, it would either return False by shortcutting (when `isinstance(lst[0],list) and len(lst[0]) <= 2`

is False) or reach the base case where the whole list is exhausted, when it would return True.

One more example: To implement `len(L)`

yourself.

Assuming `L`

would always be a list, you can implement `len`

using a loop:

```
def len(L):
i = 0
for item in L:
i += 1
return i
```

(Note: using a loop like this is also called accumulation)

Or tail recursion.

```
def len(L):
if L==[]:
return 0
return 1 + len(l[1:])
```

It removes the first item of the list and add 1 to the length of the rest of the list. Eventually, it would reach the point where L is exhausted and is reduced to the empty list, in which case it would just return 0.