Instead, a chain (linked list) is used. When you refer to an unqualified symbol, the interpreter checks the variable object for the current execution context to see if it has a property for that name. If so, it gets used; if not, the next variable object in the scope chain is checked (note that this is in the lexical order, not the call order like a call stack), and so on until the global execution context is reached (the global execution context has a variable object just like any other execution context does). The variable object for the global EC is the only one we can directly access in code:
In the above, an engine like V8 that aggressively optimizes can detect that the conceptual execution context for a call to
In contrast, the execution context created for a call to
(If either of the above had used
But these are implementation details. Conceptually, things are as described above the break.
The size of objects can grow dynamically. Therefore, you would need to adjust their memory requirements. That is why, they are stored in heap.
Both primitive values and objects are always stored in some other object - they are properties of some object.
There is not one primitive value / object that is not a property of another object. (The only exception here is the global object).