Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:19,630 --> 00:00:28,740 This is one of a multiple CCN a quiz based with videos these quizzes are practical and use a packet 2 00:00:28,790 --> 00:00:36,160 tracer to help you test and verify your knowledge of Assisi and eight topics. 3 00:00:36,310 --> 00:00:43,630 So download to the attached a packet trace a file and see if you can practically answer the questions 4 00:00:43,660 --> 00:00:45,020 in this quiz. 5 00:00:45,130 --> 00:00:55,020 So don't just answer the questions prove it by using the package to trace a simulation mode so assume 6 00:00:55,230 --> 00:01:01,590 that for these questions that all devices have just rebooted you can simulate to this by clicking the 7 00:01:01,590 --> 00:01:05,920 power cycle devices button and Packet Tracer. 8 00:01:05,980 --> 00:01:12,440 In other words you can click this button here to power cycle of the devices. 9 00:01:12,640 --> 00:01:16,930 Again don't just answer these questions prove it. 10 00:01:16,930 --> 00:01:24,100 The first question is when P.S. 1 Ping's P.S. 4 in network 1. 11 00:01:24,160 --> 00:01:27,770 What type of packet is sent to the Hub initially. 12 00:01:27,790 --> 00:01:28,680 Can you prove it. 13 00:01:29,630 --> 00:01:31,670 Who received the packet. 14 00:01:31,910 --> 00:01:34,980 Who received the return traffic from P.S. fort. 15 00:01:34,970 --> 00:01:45,090 P.S. 1 and when paying traffic is sent from P.S. 1 to P.S. 4 who receives that traffic for question 16 00:01:45,090 --> 00:01:46,530 5 to 8. 17 00:01:46,530 --> 00:01:53,140 Assume that the switches and MAC address table is empty so assume that or thus allow you to switch in 18 00:01:53,140 --> 00:01:59,450 network 2 has just a rebooted and that its MAC address table is empty. 19 00:01:59,610 --> 00:02:02,600 When P.S. 5 pings P.S. 8. 20 00:02:02,850 --> 00:02:09,330 In other words this P.S. Here pings of the IP address of PCH what type of packet is sent initially to 21 00:02:09,330 --> 00:02:10,350 the switch. 22 00:02:10,500 --> 00:02:12,110 And can you prove it. 23 00:02:12,210 --> 00:02:19,500 And then again who receives the initial packet and who receives the return traffic from P.S. 8 to P.S. 24 00:02:19,500 --> 00:02:29,930 5 and then when ICMP traffic or ping traffic is sent from P.S. 5 2 P.S. 8 who received the traffic Question 25 00:02:29,930 --> 00:02:36,270 9 10 and 11 ask about broadcast and collision domains. 26 00:02:36,350 --> 00:02:41,460 How many broadcast domains are there network one and can you prove it. 27 00:02:41,480 --> 00:02:46,390 How many broadcast domains are they in network 2 and can you prove it. 28 00:02:46,400 --> 00:02:50,570 How many collision domains are there in network 1 and network 2. 29 00:02:51,020 --> 00:02:58,610 And again can you prove that you don't have to answer these questions from Question 1 to question eleven. 30 00:02:58,700 --> 00:03:05,240 You may want to answer questions 9 10 and 11 first and then answer the other questions. 31 00:03:05,240 --> 00:03:13,460 But by the time you finished you should be able to answer these 11 questions and be able to prove the 32 00:03:13,460 --> 00:03:15,230 answers practically. 33 00:03:15,350 --> 00:03:21,980 So download the attached packet trace a file and see if you can answer the questions yourself. 34 00:03:22,250 --> 00:03:26,930 But I'm now going to go through the answers to these questions. 35 00:03:27,110 --> 00:03:29,840 I'm going to answer the questions practically now. 36 00:03:29,840 --> 00:03:32,930 So either pause the video or continue watching. 3724