# Trying to approximate the value of natural log e and the number of term use to calculate e

``````package homework1C;

public class Homework1C {

public static void main(String[] args){
double term =2,sum;
int n;
final double difference = 0.0000000001;
double x;
for(sum=0.0,n=0;term > difference;n++){

x = find_n_fact(n);
term=1.0/x;
sum+=term;
n++;
}

System.out.printf("e : %f\n", sum);
System.out.printf("term : %d\n", n);

}

public static int find_n_fact(int n){
int i;
int fact = 2;
for(i = n; i>2;i--){

fact *= i;
}
return fact;
}

}
``````

this is what i was being asked to do : Write another Java application program to find and display an approximation of e (natural logarithm). Use the following approximation formula starting with n as 2, incrementing by 1 until two successive values of e differ by less than 0.0000000001 and display not only the approximation, but how many terms of n were used in the last approximation. The formula is: approximation of e = 1/0! + 1/1! + 1/2! + 1/3! + ... , where n! is n factorial

This is my present output for this program

``````e : 1.043081
term : 20
``````

what am i doing wrong ? the answer was suppose to be

``````e: 2.71828
term: 15
``````

How to solve this?

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e is the base of the natural logarithm, not the natural logarithm itself. –  Joey Oct 9 '12 at 5:10
first of all, correct your factorial method, it gives wrong results, e.g. f(0) should be 1. –  Juvanis Oct 9 '12 at 5:19
Also, it appears that you have an integer overflow in `find_n_fact`. –  o_o Oct 9 '12 at 5:48

Several mistakes you have done:

• Your factorial method was wrong. Although it could be done in iterative manner as you tried, I suggest you the recursive version.
• You are incrementing n in the for-loop of `main()` twice, that's nonsense.

Here is the fully working code for you:

``````public class Homework1C {
public static void main(String[] args) {
double term = 2, sum = 0;
final double difference = 0.0000000001;
int n;

for (n = 0; term > difference; n++) {
term = 1.0 / find_n_fact(n);
sum += term;
}

System.out.printf("e : %f\n", sum);
System.out.printf("term : %d\n", n);
}

public static double find_n_fact(int n) {

if (n == 0 || n == 1)
return 1.0;

return n * find_n_fact(n - 1);
}
}
``````

And iterative version of factorial method is here:

``````public static double find_n_fact(int n) {
double i, fact = 1;

if(n < 0) // for negative numbers, factorial is nonsense.
return -1;

for (i = n; i > 1; i--)
fact *= i;

return fact;
}
``````
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I think i was asked to used iterative manner in this program otherwise use of if would be easier than for loop –  Khoa Vo Oct 9 '12 at 5:51
@KhoaVo I've added iterative version, too. check my post again and accept it please. –  Juvanis Oct 9 '12 at 5:56
thank you very much –  Khoa Vo Oct 9 '12 at 6:04
sorry I would like to but I don't have enough reputation –  Khoa Vo Oct 9 '12 at 6:11

It looks like your factorial function `find_n_fact` is not correct when n is 0 or 1.

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this should be a comment and i have already done it. –  Juvanis Oct 9 '12 at 5:22

In the sum, the term that follows `1/n!` is `1/(n+1)!`. That means there is no reason to start all over again (computing `(n+1)!` from scratch), but instead just divide the current term value by the next `n` value; ie the loop content only needs to be

``````    term /= n;
sum += term;
``````

where you initialize n, term and sum to 1 (since 1/0! is 1) before the loop starts. Of course take `n++` out of the loop, because the `for` statement includes an `n++` itself. This approach gets rid of your `find_n_fact()` function and the errors in it. (Minor note: `1e-10` is more convenient to write than `0.0000000001`, and has the same value.) One more suggestion: Add a statement like

``````System.out.printf("sum : %12.10f   term: %12.10f  1/t: %12.10f,  n: %d\n", sum, term, 1/term, n);
``````

inside your loop when debugging; this will make errors like the extra `n++` and the error in the factorial function obvious.

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