a) Consider a router with multiple ARP tables, one for each of its interfaces. Two of...
2) IP and MAC addressing. True or False. One point for each correct answer, zero points for each incorrect answer. Many of the questions refer to the following network consisting of three 10Mbps Ethernet segments, one switch, and one router. Assume all ARP tables are up-to-date unless otherwise stated. a) Consider a network consisting of Ethernets, hubs, switches, and routers. Suppose one of the hubs is replaced with a switch. Then the network administrator must redefine some IP addresses. True...
EXPLAIN in details why is it true or false. need to be 100%
POSTIVE OF ANSWER. SOLVE D E F G H I J
2) (10 points) IP and MAC addressing. True or False. Circle True or False. One point for each correct answer, zero points for each incorrect answer. Many of the questions refer the folowing network consisting of three 10Mbps Ethernet segments, one switch, and one router. Assume all ΛΕΡ tables are up-to-date unless otherwise stated Switch Ronter...
Question: 5 Consider three LANs interconnected by two routers, as shown in Figure given below. a. Assign IP addresses to all of the interfaces. For Subnet 1 use addresses of the form 192.168.1.xxx; for Subnet 2 uses addresses of the form 192.168.2.xxx; and for Subnet 3 use addresses of the form 192.168.3.xxx. Marks [3] Note: take the picture of diagram and assign IP address to each interfaces with your handwriting, follow above given IP address scheme, then upload your file...
networking question
Consider transmitting a packet from host A to host B via a
router, as shown below:
Suppose that before sending the packet, all the ARP tables (in
the two hosts and in the router) are empty. Assuming
host A knows the IP address of host B, describe all the packets
exchanged before sending the packet to B.
Host Host
Consider three LANs interconnected by two
routers as shown in the Figure.
1. Consider sending an IP datagram from host E to Host B.
Suppose all of the ARP tables are up-t-date. Enumerate all the
steps, as done for the single router example in section 6.4.1.
2. Now repeat the previous steps assuming that the ARP table in
the sending host is empty and the other tables are up to date.
192.168.3.001 77-77-77-77-77-77H E 92.168.1.001 1 A 00-00-00-00-00-00 192.168.1.002 22-22-22-22-22-22...
Consider three LANs interconnected by two routers, as shown in the figure below. a. Assign IP addresses to all of the interfaces. For Subnet 1 use addresses of the form 192.168.1.xxx; for Subnet 2 uses addresses of the form 192.168.2.xxx; and for Subnet 3 use addresses of the form 192.168.3.XXX. b. Assign MAC addresses to all of the adapters. c. Consider sending an IP datagram from Host E to Host B. Suppose all of the ARP tables are up to date. Enumerate all...
Consider the topology shown below with following requirements Three subnets A, B, C, should have enough addresses, starting from 192.100.10.0 to support 500 interfaces, 200 interfaces, and 100 interfaces, respectively. Each of subnets, D, E, and F has 32 interfaces. (not required for address assignment.) The IP addresses for three subnets should be assigned continuously, with spacing of power-2, that means, 250 will be rounded to 256, and so on. For each subnet, the assignment should take the form a.b.c.d/x...
please make it clear thanks
4. Consider three LANs interconnected by two routers, as shown in the following figure. a. Assign IP addresses to all of the host and router interfaces. For Subnet 1 use addresses of the form 192.168.200.xxx: for Subnet 2 uses addresses of the form 192.168.30.xxx; and for Subnet 3 use addresses of the form 192.168.100.xxx. b. Assign MAC addresses to all of the host and router interfaces. Assume that all the MAC addresses start with "00-00";...
Consider a router that interconnects two IPv4 subnets: Subnet 1 and Subnet 2. Suppose all of the interfaces in each of these three subnets are required to have the prefix 10.159.9/24. Also suppose that Subnet 1 is required to support at least 100 interfaces and Subnet 2 is to support at least 30 interfaces. Provide two network addresses (of the form а.b.c.d/X) that satisfy these constraints.
29. Consider the following LAN with one Ether switch S, one intra-domain router R, and two hosts X and Y Assume switch S has been just powered on. 1. Describe the routing and address resolution steps performed at X, Y, and S when X sends an IP packet to Y. 2. Describe the routing and address resolution steps performed at X, Y, and S when Y replies an IP packet to X. 3. Describe the routing and address resolution steps...