When you issue a
SELECT * FROM [MyTable] and your table has 10Gb on a system that has only 2Gb of RAM a database does not have to read the entire 10 Gb at once in memory. The select will start a scan of the data, starting with the first data page. For this it only needs that page (which is 8Kb) in memory, so it reads the page and consumes 8Kb of RAM. As it scans this page, it produces output that you see as the result set. As soon as is done with this page, it needs the next page so it read is in memory. It scans the records in it and produces output for your result. Then next page, then next page. The key point is that once is done with a page, its no longer needed. As it keeps adding these 8kb pages into RAM, they will eventually add up and consume all free RAM. In that moment SQL will free the old, unused, pages in RAM and thus make room for new ones. It will keep doing so until the entire 10Gb of your table are read.
If there are two users reading a table of 5GB each, things work exactly the same. Each user's query is scanning only one page at a time, and as they make progress and keep reading pages, they will fill up the RAM. When all the available RAM is used, SQL will start discarding old pages from RAM to make room for new ones.
In the real world things are fancier because of considerations like read-ahead.
And as a side note, you should never scan 10Gb of data. Your application should always request only the data it needs, and the data should be retrievable fast by using an index, exactly to avoid such large scan that needs to examine the entire table.