Networking IPv6 Online Test
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Networking IPv6 Online Test. Networking Question and Answers in English. Networking IPv6 Full online mock test paper is free for all students and Very Helpful for Exam Preparation. Networking IPv6 Online Quiz. Networking Online Mock test for IPv6 Topic. Here we are providing Networking IPv6 Online Test Series in English. Check Networking Mock Test Series 2024-2024.
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Question 1 of 15
1. Question
Which of the following is true when describing a multicast address?
Correct
Packets addressed to a multicast address are delivered to all interfaces identified by the multicast address, the same as in IPv4. It is also called a one-to-many address. You can always tell a multicast address in IPv6 because multicast addresses always start with FF.Incorrect
Packets addressed to a multicast address are delivered to all interfaces identified by the multicast address, the same as in IPv4. It is also called a one-to-many address. You can always tell a multicast address in IPv6 because multicast addresses always start with FF. -
Question 2 of 15
2. Question
Which of the following is true when describing a unicast address?
Correct
Packets addressed to a unicast address are delivered to a single interface. For load balancing, multiple interfaces can use the same address.
Incorrect
Packets addressed to a unicast address are delivered to a single interface. For load balancing, multiple interfaces can use the same address.
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Question 3 of 15
3. Question
To enable OSPFv3, which of the following would you use?
Correct
To enable OSPFv3, you enable the protocol as with RIPng. The command string is ipv6 ospf <process-id> area <area-id>.
Incorrect
To enable OSPFv3, you enable the protocol as with RIPng. The command string is ipv6 ospf <process-id> area <area-id>.
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Question 4 of 15
4. Question
What multicast addresses does RIPng use?
Correct
RIPng uses the multicast IPv6 address of FF02::9. If you remember the multicast addresses for IPv4, the numbers at the end of each IPv6 address are the same.Incorrect
RIPng uses the multicast IPv6 address of FF02::9. If you remember the multicast addresses for IPv4, the numbers at the end of each IPv6 address are the same. -
Question 5 of 15
5. Question
Which statement(s) about IPv6 addresses are true?
1. Leading zeros are required.
2. Two colons (::) are used to represent successive hexadecimal fields of zeros.
3. Two colons (::) are used to separate fields.
4. A single interface will have multiple IPv6 addresses of different types.Correct
In order to shorten the written length of an IPv6 address, successive fields of zeros may be replaced by double colons. In trying to shorten the address further, leading zeros may also be removed. Just as with IPv4, a single device’s interface can have more than one address; with IPv6 there are more types of addresses and the same rule applies. There can be link-local, global unicast, and multicast addresses all assigned to the same interface.
Incorrect
In order to shorten the written length of an IPv6 address, successive fields of zeros may be replaced by double colons. In trying to shorten the address further, leading zeros may also be removed. Just as with IPv4, a single device’s interface can have more than one address; with IPv6 there are more types of addresses and the same rule applies. There can be link-local, global unicast, and multicast addresses all assigned to the same interface.
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Question 6 of 15
6. Question
To enable RIPng, which of the following would you use?
Correct
It’s pretty simple to enable RIPng for IPv6. You configure it right on the interface where you want RIP to run with the ipv6 router rip number command.
Incorrect
It’s pretty simple to enable RIPng for IPv6. You configure it right on the interface where you want RIP to run with the ipv6 router rip number command.
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Question 7 of 15
7. Question
Which of the following is true when describing a global unicast address?
Correct
Unlike unicast addresses, global unicast addresses are meant to be routed.
Incorrect
Unlike unicast addresses, global unicast addresses are meant to be routed.
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Question 8 of 15
8. Question
What two multicast addresses does OSPFv3 use?
- FF02::A
- FF02::9
- FF02::5
- FF02::6
Correct
Adjacencies and next-hop attributes now use link-local addresses, and OSPFv3 still uses multicast traffic to send its updates and acknowledgments with the addresses FF02::5 for OSPF routers and FF02::6 for OSPF designated routers. These are the replacements for 224.0.0.5 and 224.0.0.6, respectively.
Incorrect
Adjacencies and next-hop attributes now use link-local addresses, and OSPFv3 still uses multicast traffic to send its updates and acknowledgments with the addresses FF02::5 for OSPF routers and FF02::6 for OSPF designated routers. These are the replacements for 224.0.0.5 and 224.0.0.6, respectively.
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Question 9 of 15
9. Question
What multicast addresses does EIGRPv6 use?
Correct
EIGRPv6’s multicast address stayed very near the same. In IPv4 it was 224.0.0.10; now it is FF02::A (A=10 in hexadecimal notation).
Incorrect
EIGRPv6’s multicast address stayed very near the same. In IPv4 it was 224.0.0.10; now it is FF02::A (A=10 in hexadecimal notation).
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Question 10 of 15
10. Question
To enable EIGRP, which of the following would you use?
- Router1(config-if)# ipv6 ospf 10 area 0.0.0.0
- Router1(config-if)# ipv6 router rip 1
- Router1(config)# ipv6 router eigrp 10
- Router1(config-rtr)# no shutdown
- Router1(config-if)# ipv6 eigrp 10
Correct
Unlike RIPng and OSPFv3, you need to configure EIGRP both from global configuration mode and from interface mode, and you have to enable the command with the no shutdown command.Incorrect
Unlike RIPng and OSPFv3, you need to configure EIGRP both from global configuration mode and from interface mode, and you have to enable the command with the no shutdown command. -
Question 11 of 15
11. Question
Which of the following is true when describing a link-local address?
Correct
Link-local addresses are meant for throwing together a temporary LAN for meetings or a small LAN that is not going to be routed but needs to share and access files and services locally.
Incorrect
Link-local addresses are meant for throwing together a temporary LAN for meetings or a small LAN that is not going to be routed but needs to share and access files and services locally.
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Question 12 of 15
12. Question
Which of the following is true when describing a unique local address?
Correct
These addresses are meant for nonrouting purposes like link-local, but they are almost globally unique so it is unlikely they will have an address overlap. Unique local addresses were designed as a replacement for site-local addresses.
Incorrect
These addresses are meant for nonrouting purposes like link-local, but they are almost globally unique so it is unlikely they will have an address overlap. Unique local addresses were designed as a replacement for site-local addresses.
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Question 13 of 15
13. Question
Which of the following is true when describing an anycast address?
Correct
Anycast addresses identify multiple interfaces, which is the same as multicast; however, the big difference is that the anycast packet is only delivered to one address, the first one it finds defined in the terms of routing distance. This address can also be called one-to-one-of-many.
Incorrect
Anycast addresses identify multiple interfaces, which is the same as multicast; however, the big difference is that the anycast packet is only delivered to one address, the first one it finds defined in the terms of routing distance. This address can also be called one-to-one-of-many.
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Question 14 of 15
14. Question
You want to ping the loopback address of your local host(with IPv6). What will you type?
Correct
The loopback address with IPv4 is 127.0.0.1. With IPv6, that address is ::1.Incorrect
The loopback address with IPv4 is 127.0.0.1. With IPv6, that address is ::1. -
Question 15 of 15
15. Question
Which statement(s) about IPv4 and IPv6 addresses are true?
1. An IPv6 address is 32 bits long, represented in hexidecimal.
2. An IPv6 address is 128 bits long, represented in decimal.
3. An IPv4 address is 32 bits long, represented in decimal.
4. An IPv6 address is 128 bits long, represented in hexidecimal.Correct
IPv4 addresses are 32 bits long and are represented in decimal format. IPv6 addresses are 128 bits long and represented in hexadecimal format.
Incorrect
IPv4 addresses are 32 bits long and are represented in decimal format. IPv6 addresses are 128 bits long and represented in hexadecimal format.