I'm just learning about them, and find it discouraging that they have been deprecated. Should I keep investing into learning them? Would I learn something useful for the current model?
I think, though I may be wrong, that since most high-performance graphics apps (mostly games) pretty much only used vertex buffers and the like (in order to squeeze every drop of performance out of the card), that there was pressure to stop worrying about "frivolous" items such as display lists (and even good-old glVertex calls). IMHO, this provides a huge barrier to people learning to write OpenGL code, and (for my own purposes) is a big impediment to whipping up some quick, legible, and reasonably well performing code.
Note that these features were deprecated in 3.0, and actually removed in 3.1 (but still provided compatibility via an ARB extension). In OpenGL 3.2, they moved these features into a 'compatibility' profile that is optional for driver writers to implement.
So what does this mean? NVidia, at least, has vowed to continue support for the old-school compatibility mode for the forseeable future - there is a large wealth of legacy code out there that they need to support. You can find the discussion of their support in a slideshow at:
starting at about slide #32. I don't know ATI/AMD's stance on this, but I would assume that it would be similar.
So, while display lists are technically removed from the required portion of the OpenGL 3.2 standard, I think that you are safe using them for quite a while. Eventually, you may wish to learn the buffer/shader-centric interface to OpenGL, especially if your end-goal is envelope-pushing game writing, but it really is a lot less intuitive (no glRotate, even!), so I would recommend starting with good old OpenGL 2.x.
While Matthew Hall has a good answer and covers most things, there are a few things I'll add.
If you look at what's been deprecated, you'll see it's a lot of client side and fixed functionality. So it's obvious that they're trying to move people away from client side centered code and have people do everything possible server side on the GPU instead.
When it comes to which context to use, well, that's up to you. Though if performance is a major concerned then 3.x is probably the way to go. I personally definitely want to learn opengl 3.x, but I doubt I'll be giving up 1.x/2.x. It's just so much easier to put together a quick app with what's available in a 1.x or 2.x context.
If you want a list of what's been deprecated, download the 3.0 specification and look under "The Deprecation Model"
Display lists were removed, because with opengl 3+ all vertex, texture and lighting data are stored on the graphics card, in what is called retained mode rendering (the data is retained, allowing you to send a single command to the card to draw a mesh, rather than sending vertex data to the card every frame). A major bottleneck in computer graphics is data bandwidth between RAM and gpuRAM. by generating meshes once, and retaining that data, we can transform it using homogeneous transform matrices, and draw it easily. This effectively reduces the bottleneck, with the drawback of longer loading times. Immediate mode, however (pre 3.0) uses massive amounts of graphics bandwidth to send vertex data every frame, pre-transformed, with recalculated normals etc. The problems with this approach are twofold: 1) excessive bandwidth use, and too much gpu idle time. 2) Excessive use of cpu time for calculations that could be done in parallel on 100+ cores, on the gpu
The simple solution to this, is retained mode.
With retained mode, display lists are no longer necessary. Hence their removal from the core profile.
Immediate mode is still very good for learning the theory of computer graphics. (and it's loads of fun, to boot) It just suffers in terms of maximum possible performance.
VBOs & VAOs may be, at first, less intuitive, but in terms of speed, it is far superior.
There are several easy to understand opengl 3.0 tutorials on the internet. Once you have openGL 2.0 down, you should consider moving on to 3.0+, as it allows you to build very fast 3d graphics applications.
Because VBOs (vertex buffer objects) are much more efficient and can do everything display lists can do. They're not really any more complex, either, just a little different. Unless you're already more familiar with the old style glBegin/glEnd stuff, you're probably best off learning about buffers from the get go.