Answer:
C code is given below
Explanation:
// Define a function UpdateTimeWindow() with parameters timeStart, timeEnd, and offSetAmount. Each parameter is of type int. The function adds offSetAmount to each of the first two parameters. Make the first two parameters pass-by-pointer. Sample output for the given program:
#include <stdio.h>
// Define void UpdateTimeWindow(...)
void UpdateTimeWindow(int*timeStart, int* timeEnd, int offSetAmount){
*timeStart = *timeStart+ offSetAmount;
*timeEnd = *timeEnd+ offSetAmount;
}
int main(void) {
int timeStart = 0;
int timeEnd = 0;
int offsetAmount = 0;
timeStart = 3;
timeEnd = 7;
offsetAmount = 2;
printf("timeStart = %d, timeEnd = %d\n", timeStart, timeEnd);
UpdateTimeWindow(&timeStart, &timeEnd, offsetAmount);
printf("timeStart = %d, timeEnd = %d\n", timeStart, timeEnd);
return 0;
}
Answer: They must be dated.
Explanation: If pyrotechnic VDSs are used, they must be dated. Expired VDSs may be carried on board, but a minimum of three unexpired VDSs must be carried in the vessel.
All of the given answer options are necessary to operate the enterprise resource planning (ERP) system when defining a system landscape.
Enterprise resource planning (ERP) can be defined as a business strategy process through which business firms manage and integrate the main parts of their day-to-day business activities by using software applications.
The main objective and purpose of an enterprise resource planning (ERP) system is to significantly reduce costs by integrating all the operations of a business firm.
In Computer science, when defining a system landscape, all of the following are necessary to operate the enterprise resource planning (ERP) system:
Read more on ERP system here: brainly.com/question/25752641
Answer:
The image of truth table is attached.
Explanation:
In the truth table there is a separate table for the expression (A+B).C and for the expression (A.C)+(B.C) you can see in the truth table that the columns of (A+B).C is having same values as the (A.C)+(B.C).Hence we can conclude that (A+B).C is equal to (A.C)+(B.C).
