Easiest way to determine all disconnected sets from a graph?
Say you have an adjacency matrix like the one in your question. You can determine connected components by doing a breadth-first (or depth-first) search in the matrix without having to remake copies or delete vertices.
You'll start each connected component search with the first vertex that you haven't placed in a component yet. The first one will be vertex $v_1$:
Initialize the connected component $C_1 = \{v_1\}$ and then move across $v_1$'s row in the adjacency matrix. We see that $v_1$ is adjacent to $v_5$, so $v_5$ gets added to the component $C_1 = \{v_1,v_5\}$, and we move on to $v_5$'s row. $v_5$ is connected to $v_1$ (seen already) and $v_9$, so add $v_9$ to $C_1$, and move on to $v_9$, which is adjacent to $v_5$ (seen already). Since we've reached the end of this tree, we're done with this component and get $C_1 = \{v_1,v_5,v_9\}$.
Now, take the next vertex that we haven't seen yet ($v_2$) and set $C_2 = \{v_2\}$. $v_2$ is adjacent to $v_3$ and $v_6$, so we get $C_2 = \{v_2,v_3,v_6\}$, and the next vertex to check is $v_3$, which is adjacent to $v_2$ and $v_6$, both seen. Then move to the next vertex $v_6$ and note that its adjacent to $v_2$ and $v_3$ (both seen), so we're done with this component too.
On to $C_3$, the same procedure gets us $C_3 = \{v_4,v_7,v_8\}$. All vertices $v_1$ through $v_9$ have been seen at this point so we're done, and the graph has $3$ components.