Answer:
High level Languages
Explanation:
High level languages are made so that the byte code, Assembly code that computers can understand should be converted into a higher level human understandable languages such as Python,C++. Also, remember that the compilers of these languages such as Visual studio ultimately converts the high level code into low level code ( Assembly code ) that computers can understand.
Answer:
Following are the program to this question:
#include <stdio.h>//using the header file
int main()//main method
{
int y;//defining integer variable y
printf("Enter year value:");//print message
scanf("%d", &y);//use input method for input year value
if (y>= 2101)//defining if block that checks year greater then 2101
printf("Distant future");//print message
else if (y>= 2001)//defining else if block that checks year greater then 2001
printf("21st century"); //print message
else if (y>= 1901)//defining else if block that checks year greater then 1901
printf("20th century");//print message
else //defining else block
printf("Long ago");//print message
return 0;
}
Output:
Enter year value:1998
20th century
Explanation:
In the given C language code, inside the main method, an integer variable "y" is defined, which allows the user to input the year value, and use the multiple conditions to check the given value and print message when the condition is matched.
- Inside the "if" condition block, it checks the "y" variable value is greater and equal to 2101. so, it will print "Distant future", otherwise go to the next condition.
- In this, if "y" value is greater than equal to "2001", it will print the message "21st century", otherwise go to the next condition.
- In this, If the value of "y" is greater than equal to "1901", it will print the message "20th century", and if all the above condition is not true, then it will go to the else block, and it will print "Long ago" as the message.
I would think its the "<span>requirements analysis" phase.
Because the </span>requirements analysis<span>,</span><span> is the process of determining user expectations for a new or modified product.</span>
Answer:
5.99997
Explanation:
We can refer to Pipelining as an implementation technique where multiple instructions are overlapped in execution. The computer pipeline is divided in stages. Each stage completes a part of an instruction in parallel.
It increases instruction throughput
see attachment for the step by step solution
