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Q5 Consider the following network with assiciated IP Address, MAC Address and ARP/MAC table information PC ARP Tables PC 1 IP: 192.168.10.1 | MAC: aa:bb:cc:dd:ee:99 PC 2 IP: Empty | MAC: PC 3 IP: Empty | MAC: PC 4 IP: Empty | MAC: Router 1 IP: 192.168.10.6 | MAC: aa:bb:cc:dd:ff:01 Interface Configuration Details Device | Interface | VLAN | MAC | IP Router 1 | f0/1.10 | 10 | aa:bb:cc:dd:ee:99 | 192.168.10.1 Router 1 | f0/1.20 | 20 | aa:bb:cc:dd:ee:99 | 192.168.20.1 Router 1 | f0/1.99 | 99 | aa:bb:cc:dd:ee:99 | 192.168.99.1 Switch 1 | f0/1 | Trunk | — | — Switch 1 | f0/10 | 10 | — | — Switch 1 | f0/11 | 10 | — | — Switch 1 | f0/20 | 20 | — | — Switch 1 | f0/22 | 20 | — | — Switch 1 | vlan99 | 99 | aa:bb:cc:dd:00:99 | 192.168.99.5 PC 1 | — | — | aa:bb:cc:dd:ff:01 | 192.168.10.6 PC 2 | — | — | aa:bb:cc:dd:ff:02 | 192.168.20.7 PC 3 | — | — | aa:bb:cc:dd:ff:03 | 192.168.10.8 PC 4 | — | — | aa:bb:cc:dd:ff:04 | 192.168.20.9 Switch 1 MAC Table MAC | Port aa:bb:cc:dd:ee:99 | f0/1 aa:bb:cc:dd:ff:01 | f0/10 a) When a packet from PC1 to PC4 traverses the trunk link from Switch 1 to Router 1, fill in the following information as seen in the packet headers Source | Destination MAC IP b) Nominate one advantage and one disadvantage of a layered network protocol architecture? Advantage: Disadvantage:

          Q5 Consider the following network with assiciated IP Address, MAC Address and ARP/MAC table information

PC ARP Tables
PC 1
IP: 192.168.10.1 | MAC: aa:bb:cc:dd:ee:99
PC 2
IP: Empty | MAC: 
PC 3
IP: Empty | MAC: 
PC 4
IP: Empty | MAC: 
Router 1
IP: 192.168.10.6 | MAC: aa:bb:cc:dd:ff:01

Interface Configuration Details
Device | Interface | VLAN | MAC | IP
Router 1 | f0/1.10 | 10 | aa:bb:cc:dd:ee:99 | 192.168.10.1
Router 1 | f0/1.20 | 20 | aa:bb:cc:dd:ee:99 | 192.168.20.1
Router 1 | f0/1.99 | 99 | aa:bb:cc:dd:ee:99 | 192.168.99.1
Switch 1 | f0/1 | Trunk | — | —
Switch 1 | f0/10 | 10 | — | —
Switch 1 | f0/11 | 10 | — | —
Switch 1 | f0/20 | 20 | — | —
Switch 1 | f0/22 | 20 | — | —
Switch 1 | vlan99 | 99 | aa:bb:cc:dd:00:99 | 192.168.99.5
PC 1 | — | — | aa:bb:cc:dd:ff:01 | 192.168.10.6
PC 2 | — | — | aa:bb:cc:dd:ff:02 | 192.168.20.7
PC 3 | — | — | aa:bb:cc:dd:ff:03 | 192.168.10.8
PC 4 | — | — | aa:bb:cc:dd:ff:04 | 192.168.20.9

Switch 1 MAC Table
MAC | Port
aa:bb:cc:dd:ee:99 | f0/1
aa:bb:cc:dd:ff:01 | f0/10

a) When a packet from PC1 to PC4 traverses the trunk link from Switch 1 to Router 1, fill in the following information as seen in the packet headers
Source | Destination
MAC
IP

b) Nominate one advantage and one disadvantage of a layered network protocol architecture?
Advantage:
Disadvantage:

Q5 Consider the following network with assiciated IP Address, MAC Address and ARP/MAC table information

PC ARP Tables
PC 1
IP: 192.168.10.1 | MAC: aa:bb:cc:dd:ee:99
PC 2
IP: Empty | MAC:
PC 3
IP: Empty | MAC:
PC 4
IP: Empty | MAC:
Router 1
IP: 192.168.10.6 | MAC: aa:bb:cc:dd:ff:01

Interface Configuration Details
Device | Interface | VLAN | MAC | IP
Router 1 | f0/1.10 | 10 | aa:bb:cc:dd:ee:99 | 192.168.10.1
Router 1 | f0/1.20 | 20 | aa:bb:cc:dd:ee:99 | 192.168.20.1
Router 1 | f0/1.99 | 99 | aa:bb:cc:dd:ee:99 | 192.168.99.1
Switch 1 | f0/1 | Trunk | — | —
Switch 1 | f0/10 | 10 | — | —
Switch 1 | f0/11 | 10 | — | —
Switch 1 | f0/20 | 20 | — | —
Switch 1 | f0/22 | 20 | — | —
Switch 1 | vlan99 | 99 | aa:bb:cc:dd:00:99 | 192.168.99.5
PC 1 | — | — | aa:bb:cc:dd:ff:01 | 192.168.10.6
PC 2 | — | — | aa:bb:cc:dd:ff:02 | 192.168.20.7
PC 3 | — | — | aa:bb:cc:dd:ff:03 | 192.168.10.8
PC 4 | — | — | aa:bb:cc:dd:ff:04 | 192.168.20.9

Switch 1 MAC Table
MAC | Port
aa:bb:cc:dd:ee:99 | f0/1
aa:bb:cc:dd:ff:01 | f0/10

a) When a packet from PC1 to PC4 traverses the trunk link from Switch 1 to Router 1, fill in the following information as seen in the packet headers
Source | Destination
MAC
IP

b) Nominate one advantage and one disadvantage of a layered network protocol architecture?
Advantage:
Disadvantage:

Added by Kathleen M.

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