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Pass H13-624_V5.5 c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
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c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
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c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Practice Questions
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
As promised to our users we are making more content available. Take some time and see where you stand with our Free c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
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line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
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NEW QUESTION: 1
You are designing and developing a complex database application built using many dynamic SQL statements. Which option could expose your code to SQL injection attacks?
A. Not validating parameters which are concatenated into dynamic SQL statements
B. Using bind variables instead of directly concatenating parameters into dynamic SQL statements
C. Validating parameters before concatenating them into dynamic SQL statements
D. Having excess database privileges
E. Using automated tools to generate code
Answer: B
Explanation:
Explanation: References:
NEW QUESTION: 2
A. Option C
B. Option B
C. Option A
D. Option D
Answer: A
NEW QUESTION: 3
Instructions
For both the Router and the Switch the simulated console mode needs to start and remain in enabled mode.
RouterA and SwitchA have been configured to operate in a private network which will connect to the Internet. You have been asked to review the configuration prior to cabling and implementation.
This task requires the use of various IOS commands to access and inspect the running configuration of RouterA and SwitchA. No configuration changes are necessary.
You will connect to RouterA and SwilchA via the console devices that are attached to each.
There are 4 multiple-choice questions with this task. Be sure to answer all of them before leaving this item.
In order to score the maximum points you will need to have accessed both SwitchA and RouterA.
NOTE: The configuration command has been disabled for both the router and switch in this simulation.
Which of the following is true regarding the configuration of SwitchA?
A. only connections from the local network will be possible
B. only 5 simultaneous remote connections are possible
C. console access to SwitchA requires a password
D. remote connections using ssh will require a username and password
Answer: D
Explanation:
Explanation/Reference:
Explanation:
SWITCH A CONFIGURATION
!
!
no service password-encryption
!
hostname switch1
enable password cisco
username ciscouser password 0 cisco
ip domain-name cisco.com
banner login
c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Q: What should I expect from studying the c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
A: You will be able to get a first hand feeling on how the c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Q: Will the Premium c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
A: No one can guarantee you will pass, this is only up to you. We provide you with the most updated study materials to facilitate your success but at the end of the of it all, you have to pass the exam.
Q: I am new, should I choose c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
A: We recommend the c
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
line con 0
line vty 0 4
login local
transport input ssh
line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Q: I would like to know more about the c
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
A: Reach out to us here c
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
c
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
In case you haven’t done it yet, we strongly advise in reviewing the below. These are important resources related to the c
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
c
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login local
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Exam Topics
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Review the c
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login local
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line vty 5 15
login local
transport input ssh
NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
c
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login local
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login local
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Offcial Page
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Review the official page for the c
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NEW QUESTION: 4
Refer to the exhibit.
Which statement is true about a valid IPv6 address that can be configured on tunnel interface0?
A. There is not enough information to calculate the IPv6 address.
B. 6to4 tunneling allows you to use any IPv6 address.
C. 2002:7DCB:5901::/128 is a valid IPv6 address.
D. 2001:7DCB:5901::/128 is a valid IPv6 address.
Answer: C
Explanation:
Explanation/Reference:
Explanation:
Most IPv6 networks use autoconfiguration, which requires the last 64 bits for the host. The first 64 bits are the IPv6 prefix. The first 16 bits of the prefix are always 2002:, the next 32 bits are the IPv4 address, and the last 16 bits of the prefix are available for addressing multiple IPv6 subnets behind the same 6to4 router. Since the IPv6 hosts using autoconfiguration already have determined the unique 64 bit host portion of their address, they must simply wait for a Router Advertisement indicating the first 64 bits of prefix to have a complete IPv6 address. A 6to4 router
will know to send an encapsulated packet directly over IPv4 if the first 16 bits are 2002, using the next 32 as the destination, or otherwise send the packet to a well-known relay server, which has access to native IPv6.
Reference: http://en.wikipedia.org/wiki/6to4
Check what resources you have available for studying.