Problem StatementJohn, Ram, and Joseph are comparing their finances after receiving their monthly salaries and incurring some expenditures.Your task is to create a program that, with the input of their salaries and expenditures, utilizes assignment operators (+= and -=) to compute and identify which friend has the highest remaining amount.Input format :The first line of input consists of two space-separated integers, representing John's salary and expenditure.The second line of input consists of two space-separated integers, representing Ram's salary and expenditure.The third line of input consists of two space-separated integers, representing Joseph's salary and expenditure.Output format :The output displays the name of the friend who has the highest remaining amount in the format "{Name} has more money".Refer to the sample output for the formatting specifications.Code constraints :In the given scenario, the test cases will fall under the following constraints:100 ≤ salary ≤ 1050 ≤ expenditure ≤ 105Sample test cases :Input 1 :2000 501500 307500 10Output 1 :Joseph has more moneyInput 2 :50000 1000057000 20000100000 100000Output 2 :John has more moneyInput 3 :2500 103500 251000 10Output 3 :Ram has more money

Problem statementAlice is managing a budget for her monthly expenses. She receives her salary but also has to pay bills. If her salary is greater than or equal to 2000, she can cover all her bills. If her salary is less than 2000, she needs to borrow money. Additionally, if she borrows money, she needs to pay an interest of 5%.Write a program that takes Alice's salary as input, utilizes logical and ternary operators to determine whether she can cover all her bills, and calculates the total amount she needs to pay if she borrows money.Input format :The first line of input consists of a double value 'S', representing Alice's salary.Output format :The output displays whether Alice can pay or not in the following format:If she can pay then the output displays "Alice can cover all her bills."If she cannot pay the output displays the total amount to pay which has been borrowed including the interest with two decimal places.Refer to the sample output for the formatting specifications.Code constraints :In this scenario, the test cases fall under the following constraints:100 ≤ S ≤ 5000Sample test cases :Input 1 :1000.50Output 1 :1049.47Input 2 :2000.0Output 2 :Alice can cover all her bills.Input 3 :5000.0Output 3 :Alice can cover all her bills.Input 4 :100.0Output 4 :1995.00

Problem StatementJoe is conducting a weight comparison between User A and User B. He wants to write a program that takes two integer inputs representing their weights.He determines and prints if User A is lighter than User B and if User B is lighter than User A using Relational Operators.Input format :The input consists of two integers, representing the weights of User A and User B, in separate lines.Output format :The first line of output prints whether User A is lighter than User B: display 1 if User A is lighter, and 0 otherwise.The second line of output prints whether User B is lighter than User A: display 1 if User B is lighter, and 0 otherwise.If both weights are the same, print "0".Refer to the sample output for the exact format.Code constraints :In this scenario, the test cases will fall under the following constraints:10 ≤ A, B ≤ 1000Sample test cases :Input 1 :1020Output 1 :User A is lighter: 1User B is lighter: 0Input 2 :5656Output 2 :User A is lighter: 0User B is lighter: 0Input 3 :1000987Output 3 :User A is lighter: 0User B is lighter: 1

Problem Statement Vanesa, a Math teacher, is eager to introduce students to relational operators (>, >=, <, <=, ==, !=). Create a program that takes two integer inputs x and y, and prints the results: 1- true, and 0- false for the given relational expressions.Assist Vanesa in crafting an engaging lesson on relational operators using this program.Input format :The input consists of two space-separated integers, x and y.Output format :The output prints the results of various relational expressions based on the given performance scores in the following format:"x > y: " followed by the result of x > y."x >= y: " followed by the result of x >= y."x < y: " followed by the result of x < y."x <= y: " followed by the result of x <= y."x == y: " followed by the result of x == y."x != y: " followed by the result of x != y.Refer to the sample output for formatting specifications.Code constraints :In the given scenario, the test cases will fall under the following constraints:1 ≤ x, y ≤ 100Sample test cases :Input 1 :15 39Output 1 :x > y: 0x >= y: 0x < y: 1x <= y: 1x == y: 0x != y: 1Input 2 :45 21Output 2 :x > y: 1x >= y: 1x < y: 0x <= y: 0x == y: 0x != y: 1Input 3 :100 100Output 3 :x > y: 0x >= y: 1x < y: 0x <= y: 1x == y: 1x != y: 0Note :The program will be evaluated only after the “Submit Code” is clicked.Extra spaces and new line characters in the program output will result in the failure of the test case.

In a coding challenge, you have been tasked with a unique problem: to find the maximum of two given integers using only relational operators.Write a program that takes two integer inputs, and uses only relational operators to determine the maximum of the two numbers. Your program should then print the calculated maximum.Input format :The input consists of two integers n and m, separated by space.Output format :The output prints the maximum of the given numbers.Refer to the sample output for the formatting specifications.Code constraints :In the given scenario, the test cases fall under the following constraints:10 ≤ n, m ≤ 105Sample test cases :Input 1 :78 69Output 1 :78Input 2 :410 725Output 2 :725

Single File Programming QuestionProblem StatementJoe is conducting a weight comparison between User A and User B. He wants to write a program that takes two integer inputs representing their weights.He determines and prints if User A is lighter than User B and if User B is lighter than User A using Relational Operators.Input format :The input consists of two integers, representing the weights of User A and User B, in separate lines.Output format :The first line of output prints whether User A is lighter than User B: display 1 if User A is lighter, and 0 otherwise.The second line of output prints whether User B is lighter than User A: display 1 if User B is lighter, and 0 otherwise.If both weights are the same, print "0".Refer to the sample output for the exact format.Code constraints :In this scenario, the test cases will fall under the following constraints:10 ≤ A, B ≤ 1000Sample test cases :Input 1 :1020Output 1 :User A is lighter: 1User B is lighter: 0Input 2 :5656Output 2 :User A is lighter: 0User B is lighter: 0Input 3 :1000987Output 3 :User A is lighter: 0User B is lighter: 1Note :The program will be evaluated only after the “Submit Code” is clicked.Extra spaces and new line characters in the program output will result in the failure of the test case.