Learning OpenGL and/or OpenGL ES is done best by learning the prerequisite concept of Computer Graphics in general, as well as learning the mathematics involved. Specifically linear algebra, vector spaces and how matrices can be used to represent coordination systems. OpenGL is just an API which is easy to use, as long as you understand what you're doing. If you're afraid of math, don't waste your time.
For absolute beginners, I recommend the book "3D Math Primer", with errata and samples on gamemath.com and an online article named "The matrix and quaternion FAQ" available here: www.j3d.org/matrix_faq/matrfaq_latest.html
And the OpenGL ES 1.x specification for implementation used on the iPhone:
And last but not the least, the specification for OpenGL 2.1 and the first version of the OpenGL Shading Language, GLSL:
A lot of people I've spoken to don't think the specification counts as documentation for library users, but in my opinion it does; simply because it is accurate, it has has authority and any other publications would be just citing it anyway.
If you understand the mathematics required and the general concepts of Computer Graphics, reading the standard should be a breeze.
Last word: Avoid NeHe at all costs. I saw it suggested here, and it's probably okay if you want to go the try-and-fail route. NeHe's tutorials teaches how, but not why. Most of the examples are also horribly outdated.
I recommend focusing on the programmable pipline of OpenGL (shaders) instead of the fixed-function pipeline, if you want to use OpenGL on a computer. (OpenGL ES 1.x does not have shaders) Shader languages like Cg, GLSL and HLSL are here to stay. The proof for that is the latest OpenGL 3.1 standard where the only way to get things done is through shaders. Just a wise warning, as The RedBook and other "Tech yourself OpenGL in 10 days" books tend to focus on the latter.