Basically, you will want to start on the first of the month, and create a DateTime value for each of the days in the month. Compare each of these days to all entered values for the month, and if none match, output the generated DateTime. Here's a basic algorithm to start you off; you can modify it as necessary to cover the span of dates you need:
//I leave you the exercise of actually getting the entered dates in DateTime format
List<DateTime> enteredDates = GetEnteredDatesAsDateTimes();
var unenteredDates = new List<DateTime>();
//I assume you want days for the current month;
//if not you can set up a DateTime using a specified month/year
var today = DateTime.Today;
var dateToCheck = new DateTime(today.Year, today.Month, 1);
//You could also make sure the date is less than the current date,
//or less than a specified "end date".
while (dateToCheck.Month == today.Month)
//uses Linq, which requires .NET 3.5
if(!enteredDates.Any(d=>d.Date == dateToCheck.Date))
//use the below code instead for .NET 2.0
//bool inList = false;
//foreach(var date in enteredDates)
// if(enteredDate.Date == date.Date)
// inList = true;
dateToCheck = dateToCheck.AddDays(1);
//unenteredDates now has all the dates for which the user didn't fill out the form.
Understand that this is an N^2-complexity algorithm; you're comparing each element of one list to each element of another, expecting the two lists to be of roughly equal cardinality. It shouldn't perform terribly, as long as you're not checking several months' worth of dates. You can reduce this to NlogN by sorting the list of entered dates, then performing a binary search for the date instead of a linear one. That increases the code you need to write but reduces the steps the code needs to take.