Its important to understand that when you've stored a file on disk, the mime type is not stored within that type. Thats why we have file extensions like
.wav. In the internet over HTTP we don't need them. We can have an URL
http://example.com/foo.wav but send out a JPEG with the correct the JPEG mime type, and the browser will correcty render it as JPEG. It doesn't care about the file extension.
However if you are on your local file system the file extension is relevant. If you open a file called
foo.wav your operating system decides by the extension
.wav to open some audio player.
When selecting a file to upload it to the internet the bowser does a non-trivial task: It selects a mime type for the file extension. For this every browser has a mapping table, mapping known file extensions to mime types. Well, and here is the catch: this table obviously isn't identical on different browsers. So thats why you get different results in your fiddle.
Some browsers map
audio/wav and some to
So if your test case is downloading a file with the mime type
audio.wav and then inspecting its mime type with the fiddle you posted you don't check what mime type was sent by your server when you downloaded the file, but only what mime type is guessed for the file extension by your browser.
In both cases, if you sent out a file
foo.wav with the mime type
audio/x-wav the file on your disk will be identical, and it won't be possible later to know what was the mime type your server sent for the file.
The only thing your browser can do during download is to change the file extension. For example if you sent a file
http://example.com/foo and it has
audio/wav as a mime type the browser will probably rename it to