NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
Get CFPS-KR Supporting
Before $144
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
Price: $75.00
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
Price: $69.00
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
Every candidates, whether he is professional or fresh entrants, intends to move forward in his career and become Supporting CFPS-KR Routing & Switching Network Devices certified professional. But the professional knowledge is not enough to pass, you need to have a strong grip on recommended CFPS-KR 15+678\(... .\)/678\1/
D. rule 1 /+ 1555\(...\).\(...\)$/ /\15\2/
E. rule 1 /.15+678?10?\(..\)/ /67850\1/
Answer: A,E
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
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NEW QUESTION: 1
You have a Microsoft Azure Data Lake Store and an Azure Active Directory tenant.
You are developing an application that will access the Data Lake Store by using end-user credentials.
You need to ensure that the application uses end-user authentication to access the Data
Lake Store.
What should you create?
A. a policy assignment that uses the Allowed resource types policy definition
B. a Native Active Directory app registration
C. a Web app/API Active Directory app registration
D. a policy assignment that uses the Allowed locations policy definition
Answer: A
NEW QUESTION: 2
A SIP carried delivers DIDs to a Cisco Unified Border Element in the form of +155567810XX, where the last two digits could be anything from 00 to 99. To match the internal dial plan, that number must be changed to 6785XXX, where the last two digits should be retained. Which two translation profiles create the required outcome? (Choose two)
A. rule 1 /
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
We offer CFPS-KR 15+678\(... .\)/678\1/
D. rule 1 /+ 1555\(...\).\(...\)$/ /\15\2/
E. rule 1 /.15+678?10?\(..\)/ /67850\1/
Answer: A,E
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
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NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
To make your learning smooth and hassle free of Supporting
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
Three Month free update CFPS-KR Certified Technician Routing & Switching certification exam preparation material comes with every deal. You can avail free products update facility for one year from the date of purchase of CFPS-KR 15+678\(... .\)/678\1/
D. rule 1 /+ 1555\(...\).\(...\)$/ /\15\2/
E. rule 1 /.15+678?10?\(..\)/ /67850\1/
Answer: A,E
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
It has various self-learning and self-evaluation features, including; timed exams and randomized questions.
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-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
-exam-questions.html">Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
Few weeks ago I got 90% marks in CFPS-KR 15+678\(... .\)/678\1/
D. rule 1 /+ 1555\(...\).\(...\)$/ /\15\2/
E. rule 1 /.15+678?10?\(..\)/ /67850\1/
Answer: A,E
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
Exam. I just visited Utazzkalandmackoval and bought their perfect and updated exam dumps for my CFPS-KR 15+678\(... .\)/678\1/Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D
D. rule 1 /+ 1555\(...\).\(...\)$/ /\15\2/
E. rule 1 /.15+678?10?\(..\)/ /67850\1/
Answer: A,E
NEW QUESTION: 3
-- Exhibit -
-- Exhibit --
Click the Exhibit button.
In the exhibit, R5 is receiving five 200.1.1.x routes from the RIP router, and is advertising them into Area 1 using an export policy. You want to summarize the RIP routes into Area 0 with the most specific prefix.
Which configuration will accomplish goal?
A. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/29;
}
interface ge-0/0/3.0;
}
}
B. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
area-range 200.1.1.0/28;
}
interface ge-0/0/3.0;
}
}
C. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/29;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
D. [edit protocols]
user@R1# show
ospf {
area 0.0.0.0 {
area-range 200.1.1.0/28;
interface ge-0/0/1.0;
interface ge-0/0/2.0;
interface lo0.0;
}
area 0.0.0.1 {
nssa {
default-lsa type-7;
}
interface ge-0/0/3.0;
}
}
Answer: A
NEW QUESTION: 4
exam preparation.Refer to the exhibit.
Which two corrective actions could you take if EIGRP routes from R2 fail to reach R1? (Choose two.)
A. Configure R2 to use a VRF to send routes to R1.
B. Correct the network statement on R2.
C. Add the interface on R1 that is connected to R2 into a VRF.
D. Configure the autonomous system in the EIGRP configuration of R1.
Answer: C,D