Encapsulation is the idea that you can access the data member of a class only through interface methods. The effect of using a method is "hiding" the actual implementation of the data member, so that you can change it without the need to change the code that uses that class through the interface methods (provided you don't change the way they are defined).
On the other hand, if you don't use interface methods to hide the data member implementation, all your code that uses it will need to be modified in front of any change in the data member.
Say that you have a class with a vector of strings containing a list of names. If you make public that vector, then all other classes can decide to directly use it, and access the strings it contains by their index in the vector (the index acts as a key to identify the string, say).
Later, you could decide you need a map to manage all those strings (your requirement have changed). You change the data member definition to a map and your code will not compile anymore. This is the meaning of "practically unchangeable".
The "right" way to manage this through encapsulation is making the data member private and define an interface method like:
std::string getStringWithKey(int index);
this method will access the vector in the first implementation, and the map in the second case. All this in a transparent way: the code that uses the method (instead of accessing directly the data member) will not need to be modified, so you can change the data member implementation as you like at almost no cost.
This is an oversimplification, because design of interfaces is not a simple matter and interfaces also do change, but I hope it helps clarifying things.