Just to let everyone know, this is the first time I've ever asked for help on stack overflow. I usually search the site and find a satisfactory answer or dig further on MSDN or other sites. But this time I am seriously stuck.

I received a programming problem from a recruiter that I must complete to submit to the client to see if they want to call me in. Here is the challenge: For any given value determine the number of ways said value can be represented by denominations $100, $50, $20, $10, $5, $1, .25, .10, .05, .01

I have never taken trigonometry or calculus nor have I ever encountered something this mathematically complex in my 14 years of programming. They want the answer in C# as it is a Microsoft .NET shop.

The recruiter gave me another candidate's code which he submitted. This person must be a brilliant mathemetician as she truly wrote the entire algorithim to achieve the desired result. I plugged it into a webpage and it does in fact satisfy the requirements. The problem is that I can't even figure it out and understand it in a way that would allow me to write my own implementation.

I really badly want this job as it is at a startup in NYC that sounds great. I was able to answer the second problem as it was an architecture/design question but this one is confounding me.

BTW I looked up the coin change problem and knapsack type problems on Wikipedia and it is well beyond my mathematical skills. I can't even read the answers as I don't understand calculus. So I need some serious help on this one.

Here is her code which does work BTW:

```
protected void Page_Load(object sender, EventArgs e)
{
var numberToSplit = new List<int>() {123};
foreach (int a in numberToSplit)
{
Response.Write(a + " can be split in ");
foreach (List<double> splits in GetDenominations(a).Values)
{
foreach (double b in splits)
{
Response.Write(b + ",");
}
//next split
Response.Write("<br/>");
}
Response.Write("<br/>");
}
}
public Dictionary<double, List<double>> GetDenominations(int value)
{
var denominations = new List<double> {100, 50, 20,10,5,1,0.25,0.10,0.05,0.01};
var AllPossibleSplits = new Dictionary<double, List<double>>();
var hightestdenomination = 100.0;
while (hightestdenomination != 0)
{
var remainingDenominations =
denominations.Where(a => (a <= value && !AllPossibleSplits.Keys.Contains(a)));
if (remainingDenominations.Count() > 0)
hightestdenomination = remainingDenominations.Max();
else
hightestdenomination = 0;
var splits = new List<double>();
if (hightestdenomination != 0)
{
int valueToSplit = value;
while (valueToSplit > 0)
{
foreach (double denomination in remainingDenominations.Where(a => a <= valueToSplit))
{
int absoluteValue = (int) (valueToSplit/denomination);
valueToSplit = valueToSplit - (int) (absoluteValue*denomination);
int absoluteValueSplit = 0;
while (absoluteValueSplit < absoluteValue)
{
splits.Add(denomination);
absoluteValueSplit++;
}
}
}
}
AllPossibleSplits[hightestdenomination] = splits;
}
return AllPossibleSplits;
}
```