AREA AND PERIMETER OF RECTANGLE, SQUARE AND CIRCLE
15. Display area of rectangle.
REM PROGRAM TO DISPLAY AREA OF RECTANGLE
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
A = L * B
PRINT “AREA OF RECTANGLE ”; A
END
USING SUB PROCEDURE
DECLARE SUB AREA (L, B)
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
CALL AREA(L, B)
END
SUB AREA (L, B)
A = L * B
PRINT “AREA OF RECTANGLE ”; A
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION AREA (L, B)
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
AR = AREA(L, B)
PRINT “AREA OF RECTANGLE ”; AR
END
FUNCTION AREA (L, B)
A = L * B
AREA = A
END FUNCTION
16. Display area of square.
REM PROGRAM TO DISPLAY AREA OF SQUARE
CLS
INPUT “ENTER LENGTH”; L
A = L ^ 2
PRINT “AREA OF SQUARE ”; A
END
USING SUB PROCEDURE
DECLARE SUB AREA (L)
CLS
INPUT “ENTER LENGTH”; L
CALL AREA(L)
END
SUB AREA (L)
A = L ^ 2
PRINT “AREA OF SQUARE”; A
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION AREA (L)
CLS
INPUT “ENTER LENGTH”; L
AR = AREA(L)
PRINT “AREA OF SQUARE ”; AR
END
FUNCTION AREA (L)
A = L ^ 2
AREA = A
END FUNCTION
17. Display area of circle.
REM PROGRAM TO DISPLAY AREA OF CIRCLE
CLS
INPUT “ENTER RADIUS”; R
A = 3.14 * R ^ 2
PRINT “AREA OF CIRCLE ”; A
END
USING SUB PROCEDURE
DECLARE SUB AREA (R)
CLS
INPUT “ENTER RADIUS”; R
CALL AREA(R)
END
SUB AREA (R)
A = 3.14 * R ^ 2
PRINT “AREA OF CIRCLE ”; A
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION AREA (R)
CLS
INPUT “ENTER RADIUS”; R
AR = AREA(R)
PRINT “AREA OF CIRCLE ”; AR
END
FUNCTION AREA (L, B)
A = 3.14 * R ^ 2
AREA = A
END FUNCTION
18. Display perimeter of rectangle.
REM PROGRAM TO DISPLAY PERIMETER OF RECTANGLE
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
P = 2 * (L + B)
PRINT “PERIMETER OF RECTANGLE ”; P
END
USING SUB PROCEDURE
DECLARE SUB PERIMETER (L, B)
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
CALL PERIMETER(L, B)
END
SUB PERIMETER (L, B)
P = 2 * (L + B)
PRINT “PERIMETER OF RECTANGLE ”; P
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION PERIMETER (L, B)
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
PR = PERIMETER(L, B)
PRINT “PERIMETER OF RECTANGLE ”; PR
END
FUNCTION PERIMETER (L, B)
P = 2 * (L + B)
PERIMETER = P
END FUNCTION
19. Display perimeter of square.
REM PROGRAM TO DISPLAY PERIMETER OF SQUARE
CLS
INPUT “ENTER LENGTH”; L
P = 4 * L
PRINT “PERIMETER OF SQUARE ”; P
END
USING SUB PROCEDURE
DECLARE SUB PERIMETER (L)
CLS
INPUT “ENTER LENGTH”; L
CALL PERIMETER (L)
END
SUB PERIMETER (L)
P = 4 * L
PRINT “PERIMETER OF SQUARE”; P
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION PERIMETER (L)
CLS
INPUT “ENTER LENGTH”; L
PR = PERIMETER (L)
PRINT “PERIMETER OF SQUARE ”; PR
END
FUNCTION PERIMETER (L)
P = 4 * L
PERIMETER = P
END FUNCTION
20. Display circumference of circle.
REM PROGRAM TO DISPLAY CIRCUMFERENCE OF CIRCLE
CLS
INPUT “ENTER RADIUS”; R
C = 2 * 3.14 * R
PRINT “CIRCUMFERENCE OF CIRCLE ”; A
END
USING SUB PROCEDURE
DECLARE SUB CIRCUM (R)
CLS
INPUT “ENTER RADIUS”; R
CALL CIRCUM (R)
END
SUB CIRCUM (R)
C = 2 * 3.14 * R
PRINT “CIRCUMFERENCE OF CIRCLE ”; C
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION CIRCUM (R)
CLS
INPUT “ENTER RADIUS”; R
CR = CIRCUM(R)
PRINT “CIRCUMFERENCE OF CIRCLE ”; CR
END
FUNCTION CIRCUMFERENCE (L, B)
C = 2 * 3.14 * R
CIRCUM = C
END FUNCTION
21. Display area and perimeter of rectangle.
REM PROGRAM TO DISPLAY AREA AND PERIMETER OF RECTANGLE
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
A= L * B
P = 2 * (L + B)
PRINT “AREA OF RECTANGLE “; A
PRINT “PERIMETER OF RECTANGLE ”; P
END
USING SUB PROCEDURE
DECLARE SUB AREA (L, B)
DECLARE SUB PERIMETER (L, B)
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
CALL AREA (L, B)
CALL PERIMETER(L, B)
END
SUB AREA (L, B)
A = L * B
PRINT “AREA OF RECTANGLE ”; A
END SUB
SUB PERIMETER (L, B)
P = 2 * (L + B)
PRINT “PERIMETER OF RECTANGLE ”; P
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION AREA (L, B)
DECLARE FUNCTION PERIMETER (L, B)
CLS
INPUT “ENTER LENGTH”; L
INPUT “ENTER BREADTH”; B
AR = AREA(L, B)
PR = PERIMETER(L, B)
PRINT “AREA OF RECTANGLE”; AR
PRINT “PERIMETER OF RECTANGLE ”; PR
END
FUNCTION AREA (L, B)
A = L * B
AREA = A
END FUNCTION
FUNCTION PERIMETER (L, B)
P = 2 * (L + B)
PERIMETER = P
END FUNCTION
22. Display area and perimeter of square.
REM PROGRAM TO DISPLAY AREA AND PERIMETER OF SQUARE
CLS
INPUT “ENTER LENGTH”; L
A= L ^ 2
P = 4 * L
PRINT “AREA OF SQUARE “; A
PRINT “PERIMETER OF SQUARE ”; P
END
USING SUB PROCEDURE
DECLARE SUB AREA (L)
DECLARE SUB PERIMETER (L)
CLS
INPUT “ENTER LENGTH”; L
CALL AREA (L)
CALL PERIMETER(L)
END
SUB AREA (L)
A = L ^ 2
PRINT “AREA OF SQUARE”; A
END SUB
SUB PERIMETER (L)
P = 4 * L
PRINT “PERIMETER OF SQUARE ”; P
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION AREA (L)
DECLARE FUNCTION PERIMETER (L)
CLS
INPUT “ENTER LENGTH”; L
PRINT “AREA OF SQUARE ”; AREA(L)
PRINT “PERIMETER OF RECTANGLE ”; PERIMETER(L)
END
FUNCTION AREA (L)
AREA = L ^ 2
END FUNCTION
FUNCTION PERIMETER (L)
PERIMETER = 4 * L
END FUNCTION
23. Display area and circumference of circle.
REM PROGRAM TO DISPLAY AREA AND CIRCUMFERENCE OF CIRCLE.
CLS
INPUT “ENTER RADIUS ”; R
A= 3.14 * R ^ 2
C = 2 * 3.14 * R
PRINT “AREA OF CIRCLE “; A
PRINT “CIRCUMFERENCE OF CIRCLE ”; C
END
USING SUB PROCEDURE
DECLARE SUB AREA (R)
DECLARE SUB CIRCUM (R)
CLS
INPUT “ENTER RADIUS”; R
CALL AREA(R)
CALL CIRCUM(R)
END
SUB AREA (R)
A= 3.14 * R ^ 2
PRINT “AREA OF CIRCLE”; A
END SUB
SUB CIRCUM (R)
C = 2 * 3.14 * R
PRINT “CIRCUMFERENCE OF CIRCLE”; C
END SUB
USING FUNCTION PROCEDURE
DECLARE FUNCTION AREA (R)
DECLARE FUNCTION CIRCUM (R)
CLS
INPUT “ENTER RADIUS”; R
PRINT “AREA OF SQUARE ”; AREA(R)
PRINT “CIRCLE OF CIRCUMFERENCE”; CIRCUM (R)
END
FUNCTION AREA (R)
AREA = 3.14 * R ^ 2
END FUNCTION
FUNCTION CIRCUM (R)
CIRCUM = 2 * 3.14 * R
END FUNCTION
Comments
At least 160 thousand women and men are hacking their diet with a easy and SECRET "liquid hack" to burn 1-2 lbs each night while they sleep.
It's painless and it works with anybody.
Here's how you can do it yourself:
1) Go grab a glass and fill it half glass
2) Proceed to follow this proven HACK
so you'll become 1-2 lbs skinnier as soon as tomorrow!