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var total = 0;
for (x = 1; x < 16; x++) {
    var y = x + 1;
    var singleSum = Math.pow(x, y) + Math.pow(y, x);
    total = total + singleSum;
    document.write(total + "<br>");

I want to take function(x,y) = x^y + y^x where x starts at 1 and y starts at 2 then find the sum of the first 15 function calls. I can't figure out what I'm doing wrong. Any help would be appreciated. Thanks.

share|improve this question
What happens when you run that? How is that different from what you expect? – Greg Hewgill Feb 14 '12 at 5:34
What's the expected output? Are you trying to write it with recursion? When you say "x starts at 1 and y starts at 2" do you mean they increment from there? – Tim Gostony Feb 14 '12 at 5:35
Should be working. What's the problem? – Juan Mendes Feb 14 '12 at 5:35
I have not checked for the correctness of the maths, but the code runs fine. – Xolve Feb 14 '12 at 5:38
here is the problem cstutoringcenter.com/problems/problems.php?id=6 the answer I am getting is 7910956276398901000 – Nic Meiring Feb 14 '12 at 5:39
up vote 1 down vote accepted

You could do it like this:

var total = new BigNumber(0);
for (x = 1; x < 16; x++) {
    var singleSum = new BigNumber(x).pow(x+1).add(new BigNumber(x+1).pow(x));
    total = total.add(singleSum);
    document.write(total + "<br>");

with the help of http://jsfromhell.com/classes/bignumber

The output is:

share|improve this answer
awesome thanks! – Nic Meiring Feb 14 '12 at 7:08

You are running into loss of precision in your floating point calculations. The correct answer takes more precision to represent than is available in the magnitude of the floating point number you are using. (This is sort of like how the government ignores cents when calculating taxes.)

Here is the calculation in Python, using arbitrary precision arithmetic:

>>> sum(x**(x+1) + (x+1)**x for x in range(1,16))

(the L at the end denotes a "long" integer.)

Notice how there is a 049 at the end of the correct answer, that is missing in your answer.

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x**(x+1) + (x+1)**x == 2 * x**(x+1)? – Behrang Feb 14 '12 at 5:48
@BehrangSaeedzadeh: I'm pretty sure that's not true, since for example 2**3 != 3**2. – Greg Hewgill Feb 14 '12 at 5:49
I think you could go as far as to say that that is definitely not true... – nnnnnn Feb 14 '12 at 5:53
@GregHewgill Thanks for the explanation. That is the correct answer. Any idea how I would be able to solve this in JavaScript or do I just have to accept the level of accuracy it allows? – Nic Meiring Feb 14 '12 at 6:04
@NicMeiring: Javascript by itself isn't capable of giving you the exact answer to something like 15**16. However, there exist "big integer" libraries for Javascript. See Javascript summing large integers for suggestions. – Greg Hewgill Feb 14 '12 at 6:17

the answer I am getting is 7910956276398901000

You don't say what the expected answer is, but assuming it is something similar to what you are getting the problem is that JavaScript represents numbers using IEEE-754 double-precision (64 bit) format. As I understand it this gives you 53 bits precision, or fifteen to sixteen decimal digits. The number you are getting, 7910956276398901000, has more digits than JavaScript can cope with, so you end up with an approximation of the "real" answer.

share|improve this answer
makes sense. thank you. any way to deal with this? – Nic Meiring Feb 14 '12 at 6:06

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