# Find the sum of an infinite series

How can I find the sum of an infinite series?

Series:

My misbehaving example:

``````seq 0 inf | awk '{sum+=(1/\$1)} END {print sum}'
``````

Is it possible to carry out this method correct calculation or how to resolve this problem in other ways?

• Do you need to do it in a finite time ? If so, do you have information on its convergence ? Dec 20 '13 at 11:15
• I would suggest starting from 1, as 1/0 will break it. Also, use `printf "%f\n", sum` as per floating values. Dec 20 '13 at 11:19
• @fedorqui I hope in any case this sum is just an example, as it doesn't converge. Dec 20 '13 at 11:24
• 1+ for doing numerics using the shell. :-))
– alk
Dec 20 '13 at 11:48
• The sum of an infinite series can only be determined (exactly) via analysis, not computation. Dec 20 '13 at 13:23

This series does not converge. It's called the harmonic series and it's known to do not converge.

Moreover, as a comment says, you need to start at 1 instead of 0 because otherwise it's not defined (division by 0).

Try this:

``````seq 1 inf | awk '{sum+=(1/\$1)} {print sum}'
``````

However, this doesn't work well for higher iterations, because number format representations are not compatible and the precision of the internally used number representation is not sufficient.

To make more precise calculations for estimating the value of a convergent series, you should use a scientific calculation package of a better suited programming language like Java, Python or C++.

Here is a complete working example in Java:

``````import java.math.BigDecimal;
import java.math.MathContext;
import java.math.RoundingMode;

public class SeriesCalculator {

public static void main(String[] args) {
MathContext mathContext = new MathContext(100, RoundingMode.HALF_EVEN);

BigDecimal i = BigDecimal.ONE;
BigDecimal sum = BigDecimal.ZERO;
while (true) {
// calculation for every iteration
BigDecimal element = BigDecimal.ONE.divide(i, mathContext);

// show output once for every magnitude
String iStr = i.toString();
if (iStr.matches("10*")) {
int log10_i = iStr.length() - 1;
System.out.println("i=10^" + log10_i + "; sum = " + sum);
}

// preparation of next iteration step
}
}
}
``````

Output:

``````i=10^0; sum = 1
i=10^1; sum = 2.9289682539682539682539682539682539682539682539682539682539682539682539682539682539682539682539682540
i=10^2; sum = 5.18737751763962026080511767565825315790897212670845165317653395658721955753255049660568776892312041358
i=10^3; sum = 7.485470860550344912656518204333900176521679169708803665773626749957699349165202440959934437411845081421
i=10^4; sum = 9.7876060360443822641784779048516053348592629455776917183894609566816020249431595068001251272900808826142
i=10^5; sum = 12.09014612986342794736321936350421950079369894178220110162752941593818198228230919443164900701935230601448
i=10^6; sum = 14.392726722865723631381127493188587676644800013744311653418433045812958507517995003568298175947219100731214
i=10^7; sum = 16.6953113658598518153991189395404518842498697523730804627851359543562886921742546877116037143701502883133367
i=10^8; sum = 18.99789641385389832441711039422398284185097124497010343881842218865761130260918292544757982666365581248865345
...
``````
• I assumed it was just an example (see comments below the question). Dec 20 '13 at 11:25
• I actually don't know. Let's see if the OP clarifies. Dec 20 '13 at 11:27
• Just remove the `END` to see it keep growing. Dec 20 '13 at 11:30
• Thanks for the hints. I've improved the answer. Dec 20 '13 at 11:38