6.30 LAB: Leap year - functions A year in the modern Gregorian Calendar consists of 365 days. In reality, the earth takes lon

6.30 LAB: Leap year – functions A year in the modern Gregorian Calendar consists of 365 days. In reality, the earth takes longer to rotate around the sun. To account for the difference in time, every 4 years, a leap year takes place. A leap year is when a year has 366 days: An extra day, February 29th. The requirements for a given year to be a leap year are: 1) The year must be divisible by 4 2) If the year is a century year (1700, 1800, etc.), the year must be evenly divisible by 400 Some example leap years are 1600, 1712, and 2016. Write a program that takes in a year and determines whether that year is a leap year. Ex: If the input is: 1712 the output is: 1712 is a leap year. Ex: If the input is: 1913 the output is: 1913 is not a leap year. Your program must define and call the following function. The function should return true if the input year is a leap year and false otherwise. bool IsLeapYear (int userYear) Note: This is a lab from a previous chapter that now requires the use of a function. LAB 0/10 6.30.1: LAB: Leap year – functions ACTIVITY main.c Load default template.. 1 #include 3 *Define your function here */ 5 int main(void) { 6 Type your code here. / 7 return 0 11



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