Just look at the diagram and calculate for every process, how much time he have been waiting:
P1 run at the beginning 1 time (he is the only one) thus he wait 0 here. Than, he wait from time 1 until time 10 -> total waiting time = (10-1).
P2 arrive in time 1, and start running right away. So he didn't wait at all -> (1-1).
P3 arrive in time 2, and begin running in time 17 -> (17-2).
P4 arrive in time 3, and start running in time 5 -> total waiting time = (5-3).
Thus, the average waiting time = ((10-1)+(1-1)+(17-2)+(5-3))/4 = 6.5ms.
For RR with 5 quanta, that's what gonna happen:
P1 arrives, and get quanta of 5ms -> in time 5, he stops with remaining burst of 3.
Next, P2 will start running from time 5 to time 9. (his burst is only 4). So you get P2 waited for (5-1).
P3 will start running, from time 9 to time 14 with remaining burst of 4. Next, P4 will start running from time 14 to time 19 and will end. Total waiting time for P4 is (14-3).
Than P1 will continue running from time 19 to time 22 and will end. Total waiting time for P1 is (19-5). Than, P3 continue running from time 22 to time 26. Total waiting time for P3 is (9-2) + (22-14).
So you get average running time = ((5-1)+(14-3)+(19-5)+(9-2)+(22-14))/4 = 10.5ms