I believe A is the answer here.
In OSPF configuration mode, an engineer would use the no network network-id and area area-id subcommands to remove the network commands.
Information About OSPF:
OSPF is an Interior Gateway Protocol (IGP) designed specifically for IP networks, and it supports IP subnetting as well as tagging of externally derived routing information.
OSPF also supports packet authentication and sends and receives packets using IP multicast. RFC 1253 and the OSPF management information base are supported by the Cisco implementation.
The Cisco implementation adheres to the OSPF Version 2 specifications by including the following key features:
- Definition of stub areas is supported.
- Routes learned through one IP routing protocol can be redistributed into another. This means that OSPF can import routes learned through EIGRP and RIP at the intradomain level. Routes from OSPF can also be exported to RIP.
- Plain text and MD5 authentication are supported between neighboring routers within an area.
- Interface output cost, retransmission interval, interface transmit delay, router priority, router dead and hello intervals, and authentication key are all configurable routing interface parameters.
- Virtual links are supported.
- Not-so-stubby-areas (NSSAs) per RFC 1587are supported.
To know more about OSPF, visit:brainly.com/question/4671111
#SPJ4
Answer:
The answer is option 2. public static void main(String args[]);
Explanation:
The answer is public static void main(String args[]); let's understand this line:-
- public:-It is an access specifier that means whichever entity is public it will be accessible everywhere.
- static:-It means that there is only one copy of the method.
- void:-Void means that the method does not have any returning any value.
- main:-It is the name of the method.
- String args[]:-It is an array of strings which and it stores java command line arguments.User can use another name if the user want to.
The fixed point representation of the state of the cpu register is a binary number
The positive real number of the state of the cpu register is 17.53125
<h3>How to determine the positive real number?</h3>
The state of the cpu register is given as:
State = 10001.10001 in binary
To convert the number to a positive real number, we make use of the following product rule
State = 1 * 2^4 + 0 * 2^3 + 0 * 2^2 + 0 * 2^1 + 1 * 2^0 + 1 * 2^-1 + 0 * 2^-2 + 0 * 2^-3 + 0 * 2^-4 + 1 * 2^-5
Evaluate the products
State = 16 + 0 + 0 + 0 + 1 + 0.5 + 0 + 0+ 0 + 0.03125
Evaluate the sum
State = 17.53125
Hence, the positive real number of the state of the cpu register is 17.53125
Read more about fixed point representation at:
brainly.com/question/16612919