- What is the value of $5^{\log_{5} 2}$?
- If $m = y$, which expression is equivalent to $\log (100 m^2$)? Which base logarithm do I use? Is it self implied that its $\log_{10}$? How do I solve it?
- When I get a question such as $2\log\frac{m}{n}$ and proceed to simplify it to $\log m - \log n$, do I put the $2$ only on one side or on both? I assume it's only on one side.
Basic logarithm questions
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0In Chrome, if I zoom in to 120%, refresh the page, the $2$ is in the wrong place (it's above the "3.", but under the "self implied that... solve it?" line). Weird. – 2011-08-28
2 Answers
You should read this Dr. Math article.
- We start with:
$m = 5^{\log_{5} 2}$ Let's change that to:
$m = 5^n, \space\space\space\space\space\space n = \log_{5} 2$ $n$ represents the number "5 to the power of number is 2". (In other words, $5^n = 2$.) So $m = 5^n$ is the same as $m = 2$. - Usually, mathematicians* mean $\log_{e}$ or $\ln$ when they say $\log$, but that isn't always the case. In your case, I see a $100$, so I assume it's $\log_{10}$.
- $2 \cdot \log\frac{m}{n} = 2(\log m - \log n) = 2\log m - 2\log n$.
*In different fields, such as Computer Science, $\log$ can mean even more bizarre things like $\log_{2}$! In finance/economics, it's usually $\log_{e}$.
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0@John:A more general result: $a^{\log_{b} c} = c^{\log_{b} a}$,using the first problem requires no thinking at all ;-) – 2011-08-29
Remember that the logarithm is the inverse of the exponential. That means that for any base $a$, $a^{\log_a(x)} = x\text{ for all }x\gt 0;\quad\text{and}\quad \log_a(a^x) = x\text{ for all }x.$ That is: the logarithm base $a$ "undoes" what the exponential $a^x$ does, and vice versa: just like "adding $1$" and "subtracting $1$" cancel each other (if you first add one, and then you subtract one, it amounts to doing nothing). In the same way, if you first take the logarithm base $a$, and then you take the exponential base $a$ of the answer, it amounts to doing nothing (you get what you started with back); and if you first take the exponential base $a$, and then take the logarithm base $a$ of the answer, then you get back what you started with.
I don't understand what the "$m=y$" is; nor how it relates to the rest of your question. Exactly what $\log$ represents depends on the context. For most people, $\log$ represents the logarithm base $10$, the "common logarithm" (and that is what it means in calculators); in Computer Science, $\log$ often is used to mean $\log_2$ (logarithm base $2$) because this is the most useful logarithm in computer science. In advanced mathematics, $\log$ often represents the natural logarithm (logarithm base $e$).
At your level, I would be on "logarithm base $10$".
"$\log(m/n)$" is not a question, it's an expression. But notice that "$2\log(m/n)$" means "$2$ multiplying the result of computing $\log(m/n)$". Since $\log(m/n)=\log(m)-\log(n)$, that means that $2\log(m/n)$ is equal to: $2\log(m/n) = 2 \Bigl( \log(m)-\log(n)\Bigr).$ So... if you expand this, does the $2$ multiply both summands, or just one? In general, if you have $2(a-b)$, is this equal to $2a-b$ or to $2a-2b$?
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0thanks a lot. I think I just need some sleep and then review all of this with a lucid mind :) – 2011-08-28