CCNA – IPv6 Questions
Here you will find answer to CCNA – IPv6 questions
If you are not sure about IPv6, please read my IPv6 tutorial
Question 1
As a CCNA candidate, you must have a firm understanding of the IPv6 address structure. Refer to IPv6 address, could you tell me how many bits are included in each filed?
A – 24
B – 4
C – 3
D – 16
Answer: D
Explanation:
The format of a IPv6 address is X:X:X:X:X:X:X:X where X is a 16-bit hexadecimal field. For example: 110A:0192:190F:0000:0000:082C:875A:132c
Question 2
In practical IPv6 application, a technology encapsulates IPv6 packets inside IPv4 packets, this technology is called what?
A – tunneling
B – hashing
C – routing
D – NAT
Answer: A
Question 3
Internet Protocol version 6 (IPv6) is the next-generation Internet Protocol version designated as the successor to IPv4 because IPv4 address space is being exhausted. Which one of the following descriptions about IPv6 is correct?
A – Addresses are not hierarchical and are assigned at random.
B – Broadcasts have been eliminated and replaced with multicasts.
C – There are 2.7 billion available addresses.
D – An interface can only be configured with one IPv6 address.
Answer: B
Question 4
Which two of these statements are true of IPv6 address representation? (Choose two)
A – The first 64 bits represent the dynamically created interface ID.
B – A single interface may be assigned multiple IPV6 addresses of any type.
C – Every IPV6 interface contains at least one loopback address.
D – Leading zeros in an IPV6 16 bit hexadecimal field are mandatory.
Answer: B C
Explanation:
Leading zeros in IPv6 are optional do that 05C7 equals 5C7 and 0000 equals 0 -> D is not corect.
Question 5
Which three of the following are IPv6 transition mechanisms? (Choose three)
A – 6to4 tunneling
B – GRE tunneling
C – ISATAP tunneling
D – Teredo tunneling
E – VPN tunneling
F – PPP tunneling
Answer: A C D
Explanation:
Below is a summary of IPv6 transition technologies:
6 to 4 tunneling: This mechanism allows IPv6 sites to communicate with each other over the IPv4 network without explicit tunnel setup. The main advantage of this technology is that it requires no end-node reconfiguration and minimal router configuration but it is not intended as a permanent solution.
ISATAP tunneling (Intra-Site Automatic Tunnel Addressing Protocol): is a mechanism for transmitting IPv6 packets over IPv4 network. The word “automatic” means that once an ISATAP server/router has been set up, only the clients must be configured to connect to it.
Teredo tunneling: This mechanism tunnels IPv6 datagrams within IPv4 UDP datagrams, allowing private IPv4 address and IPv4 NAT traversal to be used.
In fact, GRE tunneling is also a IPv6 transition mechanism but is not mentioned in CCNA so we shouldn’t choose it (there are 4 types of IPv6 transition mechanisms mentioned in CCNA; they are: manual, 6-to-4, Teredo and ISATAP).
Question 6
Which two descriptions are correct about characteristics of IPv6 unicast addressing? (Choose two)
A – Global addresses start with 2000::/3.
B – Link-local addresses start with FF00::/10.
C – Link-local addresses start with FE00:/12.
D – There is only one loopback address and it is ::1.
Answer: A D
Explanation:
Below is the list of common kinds of IPv6 addresses:
| Loopback address | ::1 |
| Link-local address | FE80::/10 |
| Site-local address | FEC0::/10 |
| Global address | 2000::/3 |
| Multicast address | FF00::/8 |
Question 7
Select the valid IPv6 addresses. (Choose all apply)
A – ::192:168:0:1
B – 2002:c0a8:101::42
C – 2003:dead:beef:4dad:23:46:bb:101
D – ::
E – 2000::
F – 2001:3452:4952:2837::
Answer: A B C D F
Explanation:
Answers A B C are correct because A and B are the short form of 0:0:0:0:192:168:0:1 and 2002:c0a8:0101:0:0:0:0:0042 while C are normal IPv6 address.
Answer D is correct because “::” is named the “unspecified” address and is typically used in the source field of a datagram that is sent by a device that seeks to have its IP address configured.
Answer E is not correct because a global-unicast IPv6 address is started with binary 001, denoted as 2000::/3 in IPv6 and it also known as an aggregatable global unicast address.The 2000:: (in particular, 2000::/3) is just a prefix and is not a valid IPv6 address.
The entire global-unicast IPv6 address range is from 2000::/128 to 3FFF:FFFF:FFFF:FFFF:FFFF:FFFF:FFFF/128, resulting in a total usable space of over 42,535,295,865,117,307,932,921,825,928,971,000,000 addresses, which is only 1/8th of the entire IPv6 address space!
Question 8
What is the Multicast for all-router muticast access ?
A – FF02::4
B – FF02::3
C – FF02::2
D – FF02::1
Answer: C
(New) Question 9
Which IPv6 address used the all-rip-routers multicast group as the destination address for RIP updates?
Answer: FF02::9
@ Warren Thank you. I too used only 9 tut. Did great on the SIMS but failed. Many of the multiple choice questions *not* on 9tut. Warren did you get a different lab on your second attempt? I heard when you retake, they replace one of the labs with NAT lab. Can anyone one confirm this?
did my 2nd try last week and also had acl2, eigrp and vtp, just like on my first try in april.
no tomorrow my third try. missed both tries with 775.
also got like 6 questions not on 9tut.
I studied 9tut and had the Boson practice tests. 9tut will get you 80% of the way there, but it doesn’t have everything. Sims were ACL2, EIGRP and VTP. Study up on spanning-tree and understand why ever answer is what it is in the STP sections. Also, I had access to real routers and switches at work so I could play. Sims are OK, but real equipment is never wrong. I also recommend playing with subnetting every chance you get. Got 5 free minutes? Make up an IP and mask and find out what subnet you’re in.
Q7. option F how is that a valid ipv6 address ? can anyone explain
in my last three tries i had eigrp, acl2 and vtp.
9tut-questions are not complete! take the spike dump or acme (but google for incorrect answers in acme).
Does anyone know the right answer to “which two data link layers are supported by cisco ios software for ipv6″? Options are FDDI, PPP, NBMA, frame relay SVC, frame relay PVC.
which two data link layers are supported by cisco ios software for ipv6? Answers are :
PPP
Frame Relay PVC
Q2 and Q5 on my exam today , i passed
my labs were VTP EIGRP ACL2 labs are mixed up with questions
dt let yourself disturb even if there is a bug which was my case today , the bug took me 40 min but i took myelf up succeded thanks GOD
I have just Passed CCNA exam with Score 1000. I have finished exam in 75 min. I have prepared with 9tut questions and Tutorial with Acme , lead2pass, Testking dump. I am grateful to 9tut for LAB sim. It is really helpful to answer the LAB perfectly. This site tutorial is awesome to understood most of the topics.
Canada
Thanks to 9tut especially for SIM questions. I did my exam yesterday and passed and thanks for this website. Is there a site like this one for Linux Administration exam? i will really appreciate.
Abit confused about Q2, i thought answer is D because another related question in 9tut:
Question 7
Which three approaches can be used while migrating from an IPv4 addressing scheme to an IPv6 scheme? (Choose three)
A. static mapping of IPv4 address to IPv6 addresses
B. configuring IPv4 tunnels between IPv6 islands
C. use DHCPv6 to map IPv4 addresses to IPv6 addresses
D. use proxying and translation (NAT-PT) to translate IPv6 packets into IPv4 packets
E. configure IPv6 directly
F. enable dual-stack routing
Answer: B D F
(http://www.9tut.com/new-ccna-ipv6)
Can anyone explain more?
is question 7 choice C an actual answer. LOL!
download latest dumps from
9
t
u
t
.
c
o
m
x
a
.
c
o
m
question 8 why this answer
@Azimul bro…. First of all congratulations for your outstanding score.. I am also preparing for CCNA, so please provide me all the materials you used for the same…. my email id is : ejaz.ahmad84@hotmail.com
thank you bro….
Question 8 is answered in the tutorial:
Special IPv6 Addresses
Reserved Multicast Address Description
FF02::1 + All nodes on a link (link-local scope).
FF02::2 + All routers on a link
FF02::5 + OSPFv3 All SPF routers
FF02::6 + OSPFv3 All DR routers
FF02::9 + All routing information protocol (RIP) routers on a link
FF02::A + EIGRP routers
FF02::1:FFxx:xxxx + All solicited-node multicast addresses used for host auto-configuration and neighbor discovery (similar to ARP in IPv4)
+ The xx:xxxx is the far right 24 bits of the corresponding unicast or anycast address of the node
FF05::101 + All Network Time Protocol (NTP) servers