See section 4.3.26 "property" of the 5.1 edition. The note says:
Depending upon the form of the property the value may be represented either directly as a data value (a primitive value, an object, or a function object) or indirectly by a pair of accessor functions.
We can take this as meaning a data value is one of the following:
- Primitive Value: such as C language double, _Bool, ((void*)0), etc.
- An object: which can be interpreted as a special C language structure containing the underlaying information about the object.
- Function object: which is just a special case of 2, possibly the result of JIT compilation.
In section 4.2 "Language Overview", it says:
A primitive value is a member of one of the following built-in types: Undefined, Null, Boolean, Number, and String; an object is a member of the remaining built-in type Object; and a function is a callable object.
Although this is an informal section, it can be seen that an object differs from a primitive value in a significant way.
As an interpretation, let's consider the value of an object is the object itself as we can infer from the "GetValue()" pseudo function - the overview says "an object is a member of the ... type Object - therefore, the value is the membership to the Object type.
To use a physics analogy to explain the relationship between membership and individuality, we see too electrons. They are identical in content, they're both the members of the Universe, yet they are two different individuals.
Finally as to the question as asked in the title.
The mutibility of individual objects is defined in terms of a series of specificational pseudo functions, and immutability of other types is defined using the definition of value membership of types and specification pseudo functions operating on the primitive type values.