Answer:
The answer is "Option d"
Explanation:
In networking, the data centers and cloud deployments are a micro-segmentation method, which is used to create security zones, that enables the company and isolates working loads and protect them individually. The main purpose to use, this process to increase the level of safety of the network and this process is also known as greater control of data, and other choices are not correct, that can be described as follows:
- In option a, It is used to clean drive, that's why it incorrect.
- In option b, It is also known as share the amount of entrepreneur that can buy in a particular securities, fund or opportunity, that's why it is wrong.
- In option c, It is incorrect because it is used on the internet, that can't be part of this process.
<h2>This function will land up in infinite function call</h2>
Explanation:
first time when the function gets invoked,
f(6,8), so k=6 & n=8, inside the function it checks k==n, ie. 6==8, returns false, then one more if is available, so 6>8 is check for , once again it is false and else loop is executed, the function is called recursively using f(k-n,n), that is f(6-8,8), it means f(-2,8) is passed.
Second time,
if(-2==8) is false, so if(-2>8) is again false and function f(-10, 8) is called
if(-10==8) is false, so if(-10>8) is again false and function f(-18,8) is called
if(-18==8) is false, so if(-18>8) is again false and function f(-26,8) is called
So this goes recursively and ends in an infinite function call.
<h2>
Answer:</h2>
Reservations Set aside IP addresses so that they are assigned to specific devices.
Option C is correct answer.
<h2>
Explanation:</h2>
Reservation is one of the efficient features granted by the protocol called DHCP (Dynamic host control Protocol). A device following reservation feature gets its IP address reserved every time a router gets started. This is done by the router that it sets aside the very first IP address from the pool of addresses or the device(s) who are reserved.
<h2>I hope it will help you!</h2>
The answer is a FRAME.
This is part of data encapsulation process. The data link layer encapsulates a packet into a frame. The
Frame’s header carries hardware address of the source and destination hosts. A
frame includes the network layer header, transport layer header and all upper
layer information.