The initial capacity refers to the internal array storage maintained by the list.
If you expect to hold 100 items and you specify 100 as initial capacity, you avoid the overhead of the internal resizing of the array (well, actually the list avoids creating a new array and copy the values from the previous one...).
Maybe now you've realized that a list (and many other collection types) are just an abstraction of arrays to provide specific semantics: lists, sets, dictionaries...
For example, a list collection with
100 items of initial capacity might add items to an internal array which already has
int array1 = new int;
array1 = 1;
array1 = 2;
...while a one which doesn't provide a good capacity, it may need to internally handle the insertion of 100 items this way:
int array2 = new int;
array2 = 1;
array2 = 2;
array2 = 3;
int array3 = new int;
array3 = 4;
array3 = 5;
array3 = 6;
int array4 = new int;
array4 = 7;
array4 = 8;
array4 = 9;
// and so on...
The whole internal array as list's storage already does a minimum reservation, but this is just an implementation detail. If you already know how many items you're going to add to the list, it'll be better that you provide an initial capacity.
Note that the initial capacity doesn't fix the maximum capacity of the whole list. This would defeat the purpose and semantics of lists: a collection of objects ordered by inserting order (FIFO, first-in, first-out). Once the capacity has been reached, the internal array is resized again.
Also, since lists in the higher-level are described as just object collections, you can't expect that providing an initial capacity could provide access to the internal storage indexes. The fact that there's an internal array storing collection's object is an implementation detail, you need to rely on high-level details:
// Above reason is why you CAN'T access myList
var myList = new List<string>(5);
myList = string.Empty;
Hopefully, now most .NET Framework source code is available online. You can take a look at
List<T> source code to check yourself how it works internally: