Answer:
Additional resource needed for the projects
Additional time needed for the project
Explanation:
In any project handing their will expected diversion and add on requirement, so to complete a project additional time and additional resource is required to finish a project.
As advice due the project details, end user has keep enough buffer for deviations on resource of man power and additional times taken to finish the project.
While design the project each scope of work is measure with additional time to complete the task
Each scope of work is considered as task in project management.
Explanation:
It would be modem. The modem connects to the internet through their ISP's line via a (usually) coaxial cable. The modem then transfers information to a router, which is used to transfer the information coming from the internet to the rest of the devices on the network, wired, wireless, or both.
Nowadays, though, modems and routers tend to come in a two-in-one, whether it's first-party provided by your ISP, or third-party where you've purchased one. This two-in-one is often just referred to as the router, so this could well be the answer to your question as well.
The reason I stated the above answer, is because a regular router on its own is unable to connect to the internet, it must be receiving internet from somewhere. The two-in-one however would have the coaxial cable to connect to the internet, as well as your usual Ethernet ports and wireless capability.
<span>The collection of all possible vulnerabilities that could provide unauthorized access to computer resources is called the: </span>attack surface
Answer:
C high ratings
Explanation:
he would want to know what others think about it so that he does not get a bad computer
mark as brainlies please
Answer:
Adaptive optics
Explanation:
Based on the information provided within the question it can be said that the technique that is being described in this scenario is known as Adaptive optics. This is more of a technology than a technique, and it is used improve the performance of optical systems on a telescope by compensating for the incoming wave front distortions by bending a mirror.