- C Programming Examples
- C Programming Examples
- C Print Hello World
- C Get Input from User
- C Print Integer
- C Add Two Numbers
- C Add Subtract Multiply Divide
- C Add n Numbers
- C Area Perimeter of Square
- C Area Perimeter of Rectangle
- C Area Circum of Circle
- C Fahrenheit to Celsius
- C Celsius to Fahrenheit
- C Inches to Centimeters
- C Kilogram to Gram
- C Reverse a Number
- C Swap Two Numbers
- C Interchange Numbers
- C Print ASCII Value
- C Print Fibonacci Series
- C Check Palindrome or Not
- C Check Armstrong or Not
- C Find Armstrong Numbers
- C Find nCr and nPr
- C Find Profit Loss
- C Sum of their Square
- C First & Last Digit Sum
- C Sum of All Digit
- C Product of All Digit
- C Print Total Digit in Number
- C Check Perfect Number
- C Find Basic Gross Salary
- C Round Number to Integer
- C Print Series upto n Term
- C Find Factors of Number
- C if-else & Loop Programs
- C Check Even or Odd
- C Check Prime or Not
- C Check Alphabet or Not
- C Check Vowel or Not
- C Check Leap Year or Not
- C Is Reverse Equal Original
- C Make Calculator
- C Add Digits of Number
- Count Positive Negative Zero
- C Largest of Two Numbers
- C Largest of Three Numbers
- C Smallest of Two Numbers
- C Smallest of Three Numbers
- C Find Factorial of Number
- C Find LCM & HCF
- C Find LCM of n Numbers
- C Find HCF of n Numbers
- C Find Arithmetic Mean
- C Find Average, Percentage
- C Find Student Grade
- C Print Table of Number
- C Print Prime Numbers
- C Find Discount Purchase
- C Calculate Parcel Charge
- C Calculate Wage of Labor
- C Print Phone Bill
- C Conversion programs
- C Decimal to Binary
- C Decimal to Octal
- C Decimal to Hexadecimal
- C Binary to Decimal
- C Binary to Octal
- C Binary to Hexadecimal
- C Octal to Decimal
- C Octal to Binary
- C Octal to Hexadecimal
- C Hexadecimal to Decimal
- C Hexadecimal to Binary
- C Hexadecimal to Octal
- C Pattern Programs
- C Pattern Printing Programs
- C Print Diamond Pattern
- C Print Floyd's Triangle
- C Print Pascal's Triangle
- C Array Programs
- C 1D Array Programs
- C Linear Search
- C Binary Search
- C Largest Element in Array
- C Smallest Element in Array
- C Second Largest/Smallest
- C Count Even Odd
- C Array Element at Even
- C Array Element at Odd
- C Print Even Array Elements
- C Print Odd Array Elements
- C Sum/Product of Even/Odd
- C Reverse an Array
- C Insert Element in Array
- C Delete Element from Array
- C Merge Two Arrays
- C Bubble Sort
- C Selection Sort
- C Insertion Sort
- C Print Common Elements
- C 2D Array Programs
- C Add Two Matrices
- C Subtract Two Matrices
- C Transpose a Matrix
- C Multiply Two Matrices
- C Sum All Matrix Elements
- C Largest Element in Matrix
- C Print Row Column Total
- C 3D Array Programs
- C String Programs
- C Print String
- C Find Length of String
- C Compare Two String
- C Copy a String
- C Concatenate String
- C Reverse a String
- C Count Vowels Consonants
- C Replace Vowel in String
- C Delete Vowels from String
- C Delete Word from String
- C Frequency of Character
- C Count Word in String
- C Remove Spaces from String
- C Sort a String
- C Sort String in Alphabetical
- C Sort Words in Ascending
- C Sort Words in Descending
- C Uppercase to Lowercase
- C Lowercase to Uppercase
- C Swap Two Strings
- C Check Anagram or Not
- C Check Palindrome String
- C Print Number in Words
- C Print Successive Character
- C Character without Space
- C File Programs
- C Read a File
- C Write Content to File
- C Read & Display File
- C Copy a File
- C Merge Two Files
- C Reverse File
- C Count All Character in File
- C List Files in Directory
- C Encrypt & Decrypt a File
- C Delete a File
- C Misc Programs
- Generate Random Numbers
- C Print Date Time
- C Print Message with Time
- C Get IP Address
- C Print Smiling face
- C Pass Array to Function
- Add Two Numbers using Pointer
- C Address of Variable
- C Shutdown Computer
- C Programming Tutorial
- C Tutorial
C program to determine whether a given number is a perfect number or not
In this article, we will learn how to create a program in C that will ask the user to enter any number (at run-time) as input to check whether the given number is a perfect number or not. A perfect number is a number in which a factor's sum is equal to the number itself.
Check if the given number is a perfect number in C
The question is, "Write a program in C that checks whether a given number is a perfect number or not." The program given below is its answer. 6 is a perfect number because 1, 2, and 3 are its three factors, and after summing them up, you will get the same number itself.
#include<stdio.h> #include<conio.h> int main() { int num, sum=0, i; printf("Enter any number: "); scanf("%d", &num); for(i=1; i<num; i++) { if(num%i == 0) sum = sum + i; } if(num == sum) printf("\nIt's a Perfect Number."); else printf("\nIt's not a Perfect Number."); getch(); return 0; }
The above program was built and run in the Code::Blocks IDE; here is the output. This is the first snapshot of the sample run:
Supply any number, say 6, and press the ENTER key to see if the given number is a perfect number or not. This is the second snapshot of the sample run:
Let's check for another number, say 24. Here is the sample run for case 24 (as input):
Because the factors of 24 are 1, 2, 3, 4, 6, 8, 12, finding the sum of all these factors, 1+2+3+4+6+8+12, equals 36, which is not equal to the number itself (24 here).Therefore, according to the definition of a perfect number given here, 24 is not a perfect number.
The following are some of the main steps in the above program:
- Receive any number as input, say 6.
- Make a for loop that goes from 1 to one less than the number (5 if the input is 6).
- Check whether the number is divisible by any of the numbers from 1 to one less than the number that is 5.
- If it is, then add this number to the "sum" and continue to check for the next number.
- At first run, i holds 1, and therefore the if statement evaluates like num%i == 0, or 6%1 == 0, or 0 == 0. As there will be no remainder when dividing 6 by 1, this evaluates to true, and the statement sum = sum + i or sum = 0 + 1 or sum = 1 will run inside the if block.
- Never forget to initialize the sum variable with 0 at the start of the program.
- At the second run, i is 2, and 6 is again divisible by 2 without leaving any remainder, so the statement sum = sum + i or sum = 1 + 2 or sum = 3 will run inside the if block.or 3 will be initialized to the sum variable.
- In this way, at the third, fourth, and fifth runs of the for loop, we have to process the same steps.
- At the last run, sum will have the value 6, which is equal to the number itself. Therefore, here we have concluded that all the factors' sum of the given number, which is 6, is equal to the number itself, which is 6.
- Therefore, it is a perfect number.
- To print it out, check whether the original number is equal to the factor's sum of the given number or not.
- If it is, then print it out as a perfect number.
- Otherwise, print it out as "not a perfect number."
Print all perfect numbers in the given range in C
Here is another program on perfect numbers. This program will prompt the user to enter any two numbers as the starting and ending numbers or points, after which it will check and print all perfect numbers that exist between the given two numbers:
#include<stdio.h> #include<conio.h> int main() { int n1, n2, i, j, sum, temp; printf("Enter the value of n1 (starting point): "); scanf("%d", &n1); printf("Enter the value of n2 (ending point): "); scanf("%d", &n2); printf("\nPerfect numbers between %d to %d are:\n", n1, n2); for(i=n1; i<=n2; i++) { temp = i; sum = 0; for(j=1; j<i; j++) { if(i%j==0) { sum = sum + j; } } if(temp==sum) { printf("%d\n", sum); } } getch(); return 0; }
Here is the first snapshot of the sample run:
To see if the perfect number exists between any two numbers, enter 1 as the starting number and 1000 as the ending number. Here is the second snapshot of the sample run:
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