Define a method calcPyramidVolume with double data type parameters baseLength, baseWidth, and pyramidHeight, that returns as a double the volume of a pyramid with a rectangular base. calcPyramidVolume() calls the given calcBaseArea() method in the calculation. Relevant geometry equations: Volume = base area x height x 1/3 Base area = base length x base width. (Watch out for integer division). import java.util.Scanner; public class CalcPyramidVolume { public static double calcBaseArea(double baseLength, double baseWidth) { return baseLength * baseWidth; } /*Your solution goes here*/ public static void main (String [] args) { Scanner scnr = new Scanner(System.in); double userLength; double userWidth; double userHeight; userLength = scnr.nextDouble(); userWidth = scnr.nextDouble(); userHeight = scnr.nextDouble(); System.out.println("Volume: " + calcPyramidVolume(userLength, userWidth, userHeight)); } }
Define a method calcPyramidVolume with double data type parameters baseLength, baseWidth, and pyramidHeight, that returns as a double the volume of a pyramid with a rectangular base. calcPyramidVolume() calls the given calcBaseArea() method in the calculation.
Relevant geometry equations:
Volume = base area x height x 1/3
Base area = base length x base width.
(Watch out for integer division).
import java.util.Scanner;
public class CalcPyramidVolume {
public static double calcBaseArea(double baseLength, double baseWidth) {
return baseLength * baseWidth;
}
/*Your solution goes here*/
public static void main (String [] args) {
Scanner scnr = new Scanner(System.in);
double userLength;
double userWidth;
double userHeight;
userLength = scnr.nextDouble();
userWidth = scnr.nextDouble();
userHeight = scnr.nextDouble();
System.out.println("Volume: " + calcPyramidVolume(userLength, userWidth, userHeight));
}
}
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