You are given a class named clock that has one int instance variable called hours. write a constructor with no parameters for the class clock. the constructor should set hours to 12.

C. log out of any sites you have logged into is the answer

Answer:

The program in C++ is as follows:

#include <iostream>

using namespace std;

int main(){

   int numbers[50];

   int evekount = 0, odkount = 0;

   for(int i = 0; i<50;i++){

       cin>>numbers[i];

       if(numbers[i]%2==0){            evekount++;        }

       else{            odkount++;        }

   }

   cout<<"Even Count: "<<evekount<<endl;

   cout<<"Odd Count: "<<odkount<<endl;

   return 0;

}

Explanation:

This declares the integer array of number

   int numbers[50];

This initializes the even count and odd count to 0

   int evekount = 0, odkount = 0;

This iterates from 1 to 50

   for(int i = 0; i<50;i++){

This gets input for the array

       cin>>numbers[i];

This checks for even

       if(numbers[i]%2==0){            evekount++;        }

This checks for odd

       else{            odkount++;        }

   }

This prints the even count

   cout<<"Even Count: "<<evekount<<endl;

This prints the odd count

   cout<<"Odd Count: "<<odkount<<endl;

I'm sorry I just took this test and I put  ( Rivers that flow into lakes ) it was wrong.

Answer:

Option A i.e., SME for further investigation.

Explanation:

Following the reports of such a security incident into an SOC, an incident respondent examines the incident but could not determine the cause of that same incident as well as establish an appropriate response protocol. The ticket for an incident must be applied to SME for even more inquiry. So, the following answer is correct.

Final answer:

Buses and lines on a computer chip connect to transistors, creating intricate electric circuits. These circuits, made possible by silicon-based integrated circuits, handle the binary code used in modern computing and operate on a nanoscopic scale.

Explanation:

In a computer chip, buses and lines connect to transistors, creating an intricate electric circuit. Transistors, behaving like on-off switches, handle digital signals that represent binary code; a transistor is either on or off. Integrated circuits, made from silicon or other semiconductors, contain vast collections of transistors, allowing for massive and complex data manipulation.

Silicon-based integrated circuits have revolutionized computer technology by integrating transistors and capacitors in a space-efficient manner, enabling the creation of densely packed circuitry required for modern computing devices like computers and cell phones. Such devices contain electric circuits with features as small as a nanometer.

These transistors are interconnected through buses and lines, known as the electrical pathways. These pathways are created using ultraprecise chemical treatments of the silicon or other semiconductors, which provides the precision needed for the minuscule scale of circuitry.

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