Penjumlahan vektor "vector sum"

           Vector sum
The following are examples of programs using jeliot.io.*;

import jeliot.io.*;

public class Vektor {
        int []elemen= new int [100];
        int banyak;
    
    public void beri_nilaiBanyak(){
           
            banyak=3;
            for(int i=0; i            elemen[i]=0;
           
    }
    public void masukan (Vektor A, Vektor B){
         System.out.print("\n Banyak elemen : ");
        banyak=Input.readInt();
        System.out.print("Masukkan data vektor\n ");
        for(int i=0; i                 System.out.print("Data[");
                 System.out.print(i+1);
                 System.out.print("]:");
                 A.elemen[i]=Input.readInt();
        }
        System.out.print("\n \n");
        for(int i=0; i                 System.out.print("s[");
                 System.out.print(i+1);
                 System.out.print("]=");
                 System.out.print((5));
                 System.out.print(A.elemen[i]);
                 System.out.print("\n");
        }
          return banyak;
    }
    public void penjumlahan_vektor(Vektor A, Vektor B){
     if(A.banyak>B.banyak)
     banyak=A.banyak;
     else
     banyak=B.banyak;
     for(int i=0; i     elemen[i]=A.elemen[i]+B.elemen[i];
    }
    public void perkalian_vektor(float k, Vektor A){
     banyak=A.banyak;
     for(int i=0; i     elemen[i]=A.elemen[i];
    }

     public static void main() {
     Vektor X = new Vektor();
     Vektor Y = new Vektor();
     Vektor Z = new Vektor();
     Z.beri_nilaiBanyak();
     Z.masukan(X,Y);
     Z.penjumlahan_vektor(X,Y);
     System.out.print("\n Hasil penjumlahan 2 Vektor \n" + Z);
     Z.perkalian_vektor(3,X);
     System.out.print("\n The results of scalar multiplication with a vector\n" + Z);
    }
    }

Penjumlahan vektor "vector sum"

           Vector sum
The following are examples of programs using jeliot.io.*;

import jeliot.io.*;

public class Vektor {
        int []elemen= new int [100];
        int banyak;
    
    public void beri_nilaiBanyak(){
           
            banyak=3;
            for(int i=0; i            elemen[i]=0;
           
    }
    public void masukan (Vektor A, Vektor B){
         System.out.print("\n Banyak elemen : ");
        banyak=Input.readInt();
        System.out.print("Masukkan data vektor\n ");
        for(int i=0; i                 System.out.print("Data[");
                 System.out.print(i+1);
                 System.out.print("]:");
                 A.elemen[i]=Input.readInt();
        }
        System.out.print("\n \n");
        for(int i=0; i                 System.out.print("s[");
                 System.out.print(i+1);
                 System.out.print("]=");
                 System.out.print((5));
                 System.out.print(A.elemen[i]);
                 System.out.print("\n");
        }
          return banyak;
    }
    public void penjumlahan_vektor(Vektor A, Vektor B){
     if(A.banyak>B.banyak)
     banyak=A.banyak;
     else
     banyak=B.banyak;
     for(int i=0; i     elemen[i]=A.elemen[i]+B.elemen[i];
    }
    public void perkalian_vektor(float k, Vektor A){
     banyak=A.banyak;
     for(int i=0; i     elemen[i]=A.elemen[i];
    }

     public static void main() {
     Vektor X = new Vektor();
     Vektor Y = new Vektor();
     Vektor Z = new Vektor();
     Z.beri_nilaiBanyak();
     Z.masukan(X,Y);
     Z.penjumlahan_vektor(X,Y);
     System.out.print("\n Hasil penjumlahan 2 Vektor \n" + Z);
     Z.perkalian_vektor(3,X);
     System.out.print("\n Hasil perkalian skalar dengan Vektor \n" + Z);
    }
    }

Rekursif

Is the ability of a recursive routine to call itself. Recursive definition is actually contained in the procedures and functions. The difference is that the recursive call to itself can be, but the procedures and functions must be called by the caller procedures and functions. Recursive programming techniques are important and some programming languages ​​support the existence of this recursive process.

The following is an example of a recursive program uses jeliot.io.*;

import jeliot.io.*;

public class hitung {
 
    public void input(){
    System.out.println("determine the value n:");
    n=Input.readInt();
    }
    public void proses(){
           jumlah=0;
           total=0;
           rumus=-1;
    for(int j=1; j<=n; j++)
     {
     rumus=(rumus*(-1));
     total=rumus/j;
     jumlah+=total;
     if(j==1)
     System.out.println(+total);
     if(j>1)
     System.out.println(+total);
    
     System.out.println("sum of series = "+number);
     }
     }
private int n;
private float rumus,jumlah,total;

    public static void main() {
       hitung h=new hitung();
       h.input();
       h.proses();

    }
}