In short, no, we can't consider this a new language. It's the same language, new features. But instead of being bolted on by using the Boost libs, they're now going to be standard inclusions if you're using a compiler that supports the 0x standard.
One doesn't have to use the new standard while using a compiler that supports the new standard. One will have to learn and use the new standard if certain constraints exist on the software being developed, however, but that's a constraint with any software endeavor. I think that the new features that the 0x standard brings will make doing certain things easier and less error prone, so it's to one's advantage to learn what the new features are, and how they will improve their design strategy for future work. One will also have to learn it so that when working on software developed with it, they will understand what's going on and not make large boo-boos.
As to whether I will "switch to the new standard", if that means that I will learn the new standard and use it where applicable and where it increases my productivity, then yes, I certainly plan to switch. However, if this means that I will limit myself to only working with the new features of the 0x standard, then no, since much of my work involves code written before the standard and it would be a colossal undertaking to redesign everything to use the new features. Not only that, but it may introduce new bugs and performance issues that I'm not aware of without experience.
Learning C++ has always been one of the more challenging journeys a programmer can undertake. Adding new features to the language will not change the difficulty of learning its syntax and how to use it effectively, but the approach will change. People will still learn about pointers and how they work, but they'll also learn about smart pointers and how they're managed. In some cases, people will learn things differently than before. For example, people will still need to learn how to initialize things, but now they'll learn about Uniform Initialization and Initializer Lists as primary ways to do things. In some cases, perhaps understanding things will be easier with the addition of the new for syntax for ranges or the auto return type in a function declaration. I think that overall, C++ will become easier to learn and use while at the same time becoming easier to teach.
Mastering a language is a long-term goal, it can not be done over night. It's silly to think that one can have mastery over something as complex as C++ quickly. It takes practice, experience and debugging code to really hammer something in. Academically learning is one thing, but putting to use that knowledge is an entire different monster. I think that if one already has mastery of the C++ language, the new concepts will not pose too much of a burden, but a new comer may have an advantage in that they won't bother learning some of the more obsolete ways of doing things.