What if the offshore team members are unable to join the iterations demonstration because of timezone or infrastructure issues? (c) Not a significant problem. The offshore lead and the onsite team members will attend the demo with the product owner and can relay the feedback to the offshore team afterwards.
Explanation:
Not a significant problem. The offshore lead and the onsite team members will attend the demo with the product owner and can relay the feedback to the offshore team afterwards.
From the previous statement, it is evident that if offshore team members cannot attend the demo alongside the product owner due to issues with time zones or infrastructure, it won't pose a major concern because the onsite team will be present and can share all relevant insights and feedback with the offshore team. They all belong to the same team.
Therefore, the answer (3) is correct
The answer is D. Based on their research findings, they will draw conclusions and make business decisions.
Answer:
count = 0
while count!= 8:
height = float(input("Enter the height of the rider: "))
if height >= 140:
print("You may ride")
count += 1
else:
if height >= 120:
answer = input("Is the rider accompanied by an adult (yes/no): ")
if answer == "yes":
print("You may ride")
count += 1
else:
print("You are not permitted to ride")
else:
print("You are not permitted to ride")
Explanation:
Begin with a count of zero, which will track the number of riders allowed. Use a while loop that continues until the count reaches 8. During each iteration, request the user's height. If the height is 140 cm or taller, display "You may ride" and increment the count. If the height is 120 cm or more, check if the rider is with an adult. If not, show the message "You are not permitted to ride"; otherwise, allow the ride and increase the count. If the height is below 120 cm, deny the ride.
Answer:
#include <iostream>
using namespace std;
class Digits
{
public:
int num;
int read() //method to read num from user
{
cout<<"Enter number(>0)\n";
cin>>num;
return num;
}
int digit_count(int num) //method to count number of digits of num
{
int count=0;
while(num>0) //loop till num>0
{
num/=10;
count++; //counter which counts number of digits
}
return count;
}
int countDigits(int num) //method to return remainder
{
int c=digit_count(num); //calls method inside method
return num%c;
}
};
int main()
{
Digits d; //object of class Digits is created
int number=d.read(); //num is read from user
cout<<"\nRemainder is: "<<d.countDigits(number); //used to find remainder
return 0;
}
Output:
Enter number(>0)
343
Remainder is: 1
Explanation:
The program has a logical error that needs rectification. A correctly structured program calculates the remainder when a number is divided by the count of its digits. A class named Digits is created, consisting of the public variable 'num' and methods for reading input, counting digits, and calculating the remainder.
- read() - This function asks the user to enter the value for 'num' and returns it.
- digit_count() - This function accepts an integer and counts how many digits it has, incrementing a counter until 'num' is less than or equal to 0. It ultimately returns the digit count.
- countDigits() - This function takes an integer and delivers the remainder from dividing that number by its digit count. The digit count is computed using the 'digit_count()' method.
Finally, in the main function, a Digits object is instantiated, and its methods are utilized to produce an output.
