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A common year in the modern Gregorian Calendar consists of 365 days. In reality, 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; therefore, both 1700 and 1800 are not leap years Some example leap years are 1600, 1712, and 2016. Write a program that takes in a year and determines the number of days in February for that year. Ex: If the input is: 1712 the output is: 1712 has 29 days in February. Ex: If the input is: 1913 the output is: 1913 has 28 days in February. Your program must define and call the following method. The method should return the number of days in February for the input year. public static int daysInFeb(int userYear) A common year in the modern Gregorian Calendar consists of 365 days. In reality, 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; therefore, both 1700 and 1800 are not leap years Some example leap years are 1600, 1712, and 2016. Write a program that takes in a year and determines the number of days in February for that year. Ex: If the input is: 1712 the output is: 1712 has 29 days in February. Ex: If the input is: 1913 the output is: 1913 has 28 days in February. Your program must define and call the following method. The method should return the number of days in February for the input year. public static int daysInFeb(int userYear)

A common year in the modern Gregorian Calendar consists of 365 days. In reality, 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; therefore, both 1700 and 1800 are not leap years Some example leap years are 1600, 1712, and 2016. Write a program that takes in a year and determines the number of days in February for that year. Ex: If the input is: 1712 the output is: 1712 has 29 days in February. Ex: If the input is: 1913 the output is: 1913 has 28 days in February. Your program must define and call the following method. The method should return the number of days in February for the input year. public static int daysInFeb(int userYear) A common year in the modern Gregorian Calendar consists of 365 days. In reality, 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; therefore, both 1700 and 1800 are not leap years Some example leap years are 1600, 1712, and 2016. Write a program that takes in a year and determines the number of days in February for that year. Ex: If the input is: 1712 the output is: 1712 has 29 days in February. Ex: If the input is: 1913 the output is: 1913 has 28 days in February. Your program must define and call the following method. The method should return the number of days in February for the input year. public static int daysInFeb(int userYear)

Database System Concepts
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
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A common year in the modern Gregorian Calendar consists of 365 days. In reality, 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; therefore, both 1700 and 1800 are not leap years

Some example leap years are 1600, 1712, and 2016.

Write a program that takes in a year and determines the number of days in February for that year.

Ex: If the input is:

1712

the output is:

1712 has 29 days in February.

Ex: If the input is:

1913

the output is:

1913 has 28 days in February.

Your program must define and call the following method. The method should return the number of days in February for the input year.
public static int daysInFeb(int userYear)

A common year in the modern Gregorian Calendar consists of 365 days. In reality, 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; therefore, both 1700 and 1800 are not leap years

Some example leap years are 1600, 1712, and 2016.

Write a program that takes in a year and determines the number of days in February for that year.

Ex: If the input is:

1712

the output is:

1712 has 29 days in February.

Ex: If the input is:

1913

the output is:

1913 has 28 days in February.

Your program must define and call the following method. The method should return the number of days in February for the input year.
public static int daysInFeb(int userYear)

2:Unit test Input Expected output Your output 3:Unit test Compilation failed 1712 daysInFeb(1913) Compilation failed Enter a year: 1712 Compilation failed 1712 has 29 days in February. leap year zyLabsUnitTest.java:10: error: cannot find symbol studentResult = studentMain.days InFeb (1913); daysInFeb(1600) Compilation failed symbol: method days InFeb (int) location: variable studentMain of type LabProgram 1 error zyLabsUnitTest.java:10: error: cannot find symbol studentResult = studentMain.days InFeb (1600); symbol: method days InFeb (int) location: variable studentMain of type LabProgram 1 error
Transcribed Image Text:2:Unit test Input Expected output Your output 3:Unit test Compilation failed 1712 daysInFeb(1913) Compilation failed Enter a year: 1712 Compilation failed 1712 has 29 days in February. leap year zyLabsUnitTest.java:10: error: cannot find symbol studentResult = studentMain.days InFeb (1913); daysInFeb(1600) Compilation failed symbol: method days InFeb (int) location: variable studentMain of type LabProgram 1 error zyLabsUnitTest.java:10: error: cannot find symbol studentResult = studentMain.days InFeb (1600); symbol: method days InFeb (int) location: variable studentMain of type LabProgram 1 error
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