.NET compilers can take any type of language syntax and turn it into a .NET equivalent. Sometimes there is a one for one correspondence other times there isn't.
By using the .NET Reflector you can see what the compiler is really doing.
In VB.NET the module exists because of the heritage inherited from Visual BASIC and partly from Microsoft BASIC.
The VB.NET compiler will take this
Public Module CoreModule
Dim R As New System.Random(CInt(Microsoft.VisualBasic.Timer))
Public Function D(ByVal Roll As Integer) As Integer
Return R.Next(0, Roll) + 1
End Function
Public Function _1D6() As Integer
Return D(6)
End Function
Public Function _2D6() As Integer
Return D(6) + D(6)
End Function
Public Function _3D6() As Integer
Return D(6) + D(6) + D(6)
End Function
Public Function _4D6() As Integer
Return D(6) + D(6) + D(6) + D(6)
End Function
Public Function CRLF() As String
Return Microsoft.VisualBasic.ControlChars.CrLf
End Function
End Module
And turn it into this (code left out for brevity)
Public NotInheritable Class CoreModule
' Methods
Shared Sub New()
Public Shared Function _1D6() As Integer
Public Shared Function _2D6() As Integer
Public Shared Function _3D6() As Integer
Public Shared Function _4D6() As Integer
Public Shared Function CRLF() As String
Public Shared Function D(ByVal Roll As Integer) As Integer
' Fields
Private Shared R As Random
End Class
In C# the equivalent is this
public sealed class CoreModule
{
// Fields
private static Random R;
// Methods
static CoreModule();
public static int _1D6();
public static int _2D6();
public static int _3D6();
public static int _4D6();
public static string CRLF();
public static int D(int Roll);
}
All that matter is that the emitted CIL does the job correctly.
This capability is the main reason why so many older Visual BASIC 6 programmers are highly annoyed at MS's changes to the language. For example the keyword Integer emitting a Int32 instead of a Int16.
Modules are exposed to other assemblies referencing the original assembly as long as the module is declared public.