Refer to the exhibit. An engineer configures a static route on a router, but when the engineer checks the route to the destination, a different next hop is chosen.
What is the reason for this?
Refer to the exhibit. An engineer configures a static route on a router, but when the engineer checks the route to the destination, a different next hop is chosen.
What is the reason for this?
The Administrative Distance (AD) is a measure of the trustworthiness of the source of the routing information. The lower the AD, the more preferred the route. In this scenario, the static route has been configured with an AD of 130, while the OSPF protocol, which is dynamically configured, has an AD of 110. Since 110 is lower than 130, the OSPF route is preferred over the static route. This is why the different next hop is chosen.
C is correct because the AD for the static route was set to 130 vs. OSPD default 110.
This would be easy for CCNA too
C is correct
C is correct
A is correct. The static route's AD is set 130, which is more than OSPF's default AD of 110.
you mean C is correct, A has nothing to do with AD
The correct answer is: C
Clearly is C, as AD of static routes is 130 vs 110 on ospf
The correct answer is: C
C is correct. The AD of static route by default is lower (0) than OSPF (110) but the example shows it was override to 130.
C is correct here
Answer is correct
C is correct ,the AD for static route is 130 ,the AD in OSPF is 110; 130 > 110 so win OSPF
The configured AD for the static route is higher than the AD of OSPF.
The given answer is correct