If you want the in-exhaustive-detail answer to this question go to http://exceptionsafecode.com/ and either watch the 85 min video that covers just C++03 or the three hour (in two parts) video that covers both C++03 and C++11.
When writing Exception-Safe code, we assume all functions throw, unless we know different.
*) Fundamental types (including arrays of and pointers to) can be assigned to and from and used with operations that don't involve user defined operators (math using only fundamental integers and floating point values for example). Note that division by zero (or any expression whose result is not mathematically defined) is undefined behavior and may or may not throw depending on the implementation.
*) Destructors: There is nothing conceptually wrong with destructors that emit exceptions, nor does the standard prohibited them. However, good coding guidelines usually prohibit them because the language doesn't support this scenario very well. (For example, if destructors of objects in STL containers throw, the behavior is undefined.)
*) Using swap() is an important technique for providing the strong exception guarantee, but only if swap() is non-throwing. In general, we can't assume that swap() is non-throwing, but the video covers how to create a non-throwing swap for your User-Defined Types in both C++03 and C++11.
*) C++11 introduces move semantics and move operations. In C++11, swap() is implemented using move semantics and the situation with move operations is similar to the situation with swap(). We cannot assume that move operations do not throw, but we can generally create non-throwing move operations for the User-Defined Types that we create (and they are provided for standard library types). If we provide non-throwing move operations in C++11, we get non-throwing swap() for free, but we may choose to implement our own swap() any way for performance purposes. Again, this is cover in detail in the video.
*) C++11 introduces the noexcept operator and function decorator. (The "throw ()" specification from Classic C++ is now deprecated.) It also provides for function introspection so that code can be written to handle situations differently depending on whether or not non-throwing operations exist.
In addition to the videos, the exceptionsafecode.com website has a bibliography of books and articles about exceptions which needs to be updated for C++11.