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I want the complete expansion of log(a+b)=?

for ex

                  log(a*b)=log a + log b;

                  log(a/b)=lob a - log b;

Similar to this, is there any expansion for log(a+b)???

Thanks in advance...

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closed as off topic by kennytm, aaronasterling, Michael Anderson, Paul R, Hans Olsson Oct 20 '10 at 7:26

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Any programming language that supports log can compute log(a+b) numerically. – kennytm Oct 20 '10 at 4:48
Belongs on – Paul R Oct 20 '10 at 6:57
I thought I should comment under this question, since I've ended up here looking for an answer to this question. In the context of Bayesian inference, transforming the posterior probability to log space requires that you take log of denominator which is an integral (or an approximation via summation). However, this summation must be turned into log space, since its calculation is the reason we're moving to log space in the first place. There is a common method called log-sum-exp trick. Google this, and you'll see where an how it is used. Not the exact same thing, but relevant enough :) – mahonya Oct 25 '11 at 10:07
up vote 34 down vote accepted

In general, one doesn't expand out log(a + b); you just deal with it as is. That said, there are occasionally circumstances where it makes sense to use the following identity:

log(a + b) = log(a * (1 + b/a)) = log a + log(1 + b/a)

(In fact, this identity is often used when implementing log in math libraries).

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And, we can also use the Taylor's Series for expanding ln(1+b/a)... – Aditya Singh Oct 20 '10 at 6:34
@wiz kid: assuming b is smaller in magnitude than a, of course. (Otherwise, swap them). – Stephen Canon Oct 20 '10 at 6:36
This makes sense only when log a is easy to calculate - which is rare. However if you want log10 or log2, the identity still holds, and the simple cases where log a is nice are easier to identify. – Michael Anderson Oct 20 '10 at 6:38
@Michael Anderson: In the typical usage for a math library, one has a table with precomputed pairs of a and log a stored to high accuracy. – Stephen Canon Oct 20 '10 at 6:41
Nearly all programming language math packages contain a log1 function, which you should use for the second term, as log1(b/a). This ensures maximum precision, which is otherwise low this close to 1. – Thomas Ahle Dec 29 '14 at 23:59

Why would you ever want to do this? The property that log (a*b) = log a + log b is only useful because it transforms a multiplication operation into an addition operation. log (a+b) already involves only an addition, so it makes no sense to have any further expansion.

Of course you can always use one of the several series for computing logarithms, but the fastest way would be to simply compute log (a+b) directly. For that matter, on most computers, even log (a*b) is going to be faster than log a + log b, since the latter involves an extra logarithm operation.

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Because sometimes you can only compute log(a) and log(b) and not explicitly a+b and take log – Jing Nov 17 '12 at 14:28

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