Explanation:
#include <iostream.h>
#inlcude<conion.h>
void main()
{
int count, x;
clrscr();
cout<<"Enter the count:";
cin>> count;
cout<<"Ready!\n";
for(x=count;x>0;x--)
{
cout<<x<<"\n";
}
cout<<"Start";
getche();
}
This is a simple program where the output is expected to be in reverse order. So we run a for loop starting from the count and decrements the counter by 1 every time when the loop runs and print the value. So to print the output in "new line" we include "\n".
Did u shut it down and then reset it????? Did you unplug your internet adapter????
By ignoring the opt-out check box that allows the extension to download a search toolbar, the error which has occurred here is that: d. Kate has installed a potentially unwanted program (PUP).
<h3>What is a software?</h3>
A software can be defined as a set of executable instructions that is typically used to instruct a computer system on how to perform a specific task (function) and proffer solutions to a particular problem.
<h3>What is a
potentially unwanted program (
PUP)?</h3>
A potentially unwanted program (PUP) can be defined as a piece of software that's bundled into download packages and may be unwanted by the end user because it offers no benefits or may pose high risk.
In this scenario, we can reasonably infer and logically deduce that the error which has occurred here is that Kate has installed a potentially unwanted program (PUP) because she ignored the opt-out check box which then allowed the extension to download a search toolbar.
Read more on potentially unwanted program here: brainly.com/question/25091456
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Complete Question:
Kate decides to download an extension to her favorite browser to quickly store links on her spreadsheet software. While downloading the software, she ignores the opt-out check box that allows the extension to download a search toolbar.
What has occurred here?
a. Kate has installed an injection.
b. Kate has installed a backdoor.
c. Kate has installed a Trojan.
d. Kate has installed a potentially unwanted program (PUP).
A PCM system consists of a PCM encoder (transmitter) and a PCM decoder (receiver). The essential operations in the PCM transmitter are sampling, quantizing and encoding. All the operations are usually performed in the same circuit called as analog-to digital convert Early electrical communications started to sample signals in order to multiplex samples from multiple telegraphy sources and to convey them over a single telegraph cable. The American inventor Moses G. Farmer conveyed telegraph time-division multiplexing (TDM) as early as 1853. Electrical engineer W. M. Miner, in 1903, used an electro-mechanical commutator for time-division multiplexing multiple telegraph signals; he also applied this technology to telephony.