Regarding #1, the line-up would be roughly as follows:
Windows.UI.XAML namespace) is not available. Provides some standard JS APIs (specified by HTML5) in addition to the available surface of WinRT, such as local storage or IndexedDB. Being dynamically typed, heavy CPU-bound processing is likely to be slower than either .NET or C++, though the JS engine is still very fast due to being JIT-compiled and heavily optimized. You can consume C++ and .NET WinRT components, but not write your own in JS. Some aspects of language projection seem to be limited correspondingly - e.g. so far as I can see, there's no way to implement a WinRT interface in JS, for example. Existing JS libraries can usually be reused with no or minimal effort, so long as they work in IE10.
.NET (C#/VB) - mid-level, statically typed with optional dynamic typing (
dynamic keyword etc) and GC. XAML UI framework is the default one for UI, but you can also use HTML by using
WebView control. Provides full access to WinRT libraries, but also some of its own on top of that, which are sometimes more convenient to use (e.g.
IOutputStream). Also, the only one that includes special language-level support for asynchronous operations (
await keywords), which are used heavily when using WinRT APIs due to their highly asynchronous design. Generally speaking, provides most syntactic sugar - aside from async stuff, you get LINQ to objects (which works over WinRT collections). Can write your own WinRT components, which can then be used from JS or C++/CX. Existing .NET libraries may or may not be readily reusable, depending on what classes in .NET Framework they rely on; components written for Silverlight or WP7 are most likely to be reusable with no or minimal changes, while components written for .NET 4 Full or Client Profile may require significant changes to run.
C++/CX (Visual C++ Component Extensions) - low/mid-level, statically typed, no GC - refcounting only. Closest "to the metal" in that its object model is designed to map directly to WinRT with no impedance mismatch - hence refcounting - but still high-level enough to avoid boilerplate and be generally safe to use (e.g. exceptions rather than HRESULTs, strings seen as objects and not handles,
dynamic_cast rather than
QueryInterface etc). No additional layers, proxy objects etc between you and WinRT, all calls are direct. In most cases, fastest of all three, though the exact difference varies significantly depending on the specific task, and can be minuscule for some (e.g. event-driven app with no or little computation), and considerable for others (e.g. parsing or heavy math). UI story is same as for .NET. In addition, you get the entire C++ standard library available to you, as well as a subset of ATL. Can write your own WinRT components, which can then be used from JS or .NET. Existing C++ libraries may or may not be readily reusable, depending on which APIs they use; those that relies strictly on Standard C/C++ will usually work with no changes, while those that call Win32 APIs may pose a problem if they rely on APIs not available in Metro app container.
Regarding #3, this video - http://channel9.msdn.com/Events/BUILD/BUILD2011/TOOL-789C - should answer most of your questions regarding the use of Win32 (which I presume what "low-level DLL" means) from Metro apps. Note that while the video is about C++, this also fully applies to C#, as P/Invoke and COM Interop are still there. So if you can call it from C++, you can call it from C#.