F# has handy `minBy`

and `maxBy`

operators, which I like to implement as C# extension methods, since the Linq library omits them. It's a bit of work, but only a bit, and it allows you to avoid complex expressions such as

```
var earliest = booList.First(b => b.Field3 == booList.Min(e => e.Field3));
```

Instead, you can type this:

```
var earliest = booList.MinBy(b => b.Field3);
```

A simple implementation:

```
static T MinBy<T, C>(this IEnumerable<T> sequence, Func<T, C> keySelector)
{
bool first = true;
T result = default(T);
C minKey = default(C);
IComparer<C> comparer = Comparer<C>.Default; //or you can pass this in as a parameter
foreach (var item in sequence)
{
if (first)
{
result = item;
minKey = keySelector.Invoke(item);
first = false;
continue;
}
C key = keySelector.Invoke(item);
if (comparer.Compare(key, minKey) < 0)
{
result = item;
minKey = key;
}
}
return result;
}
```

This is also somewhat more efficient than the complex expression at the top, since MinBy iterates the sequence exactly once, while the expression iterates more than once and less than or equal to twice. And, of course, sorting and then taking the first item requires sorting, which is O(n log n), while this is just O(n).