No, it isn't completely correct. `Vector`

is synchronized on the `Vector`

instance itself, whereas the synchronized block actually synchronizes on the instance that holds the `Vector`

. Two methods entering the synchronized block, must first acquire the monitor associated with `this`

, and then acquire the monitor associated with the `Vector`

instance.

An edge case is that if one of the threads, holds a monitor that the other requires (if you have other synchronized blocks as well), then you can have a deadlock.

Nevertheless, considering only the section of code posted, the thread that first acquires the monitor on `this`

will be first to execute the operation on the Vector. Also, sequences of operations on the `Vector`

instance can be performed by the first thread, without any interleaving of operations by the second thread; this is necessary if you want to perform an atomic sequence of operations on the `Vector`

instance, which will not be the case on a plain synchronized `Vector`

instance. To represent this in pseudocode, the sequence of operations in the two cases represented below will be different, if context-switching between two or more threads executing the same block occur:

**Case A**

```
synchronized
{
vector.add(a);
vector.add(b);
/*
* a and b are always added to the vector in sequence.
* If two threads execute this block, the vector will contain {a,b,a,b}.
*/
}
```

**Case B**

```
{
vector.add(a);
vector.add(b);
/*
* a and b need not be added to the vector in sequence.
* If two threads execute this block, the vector will contain one of {a,b,a,b}, {a,a,b,b}....
*/
}
```