How do you solve $log_4 x^2 - log_4 (x+1) = 5$ ?

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Answer 1 · 2016-02-08T11:18:16

$x ~~ - 0.999 " or " x ~~ 1024.999$

1) Determine the domain

First of all, let's determin the domain of the two logarithmic expressions.

Thus, our domain is $x > -1$ and $x != 0$ .

2) Solve the equation

Now let's solve the equation. To start, use the logarithmic law

$log_a (m) - log_a(n) = log_a(m/n)$

Thus, you can transform your equation into:

$log_4(x^2 / (x+1)) = 5$

Now, the inverse function of $log_4(x)$ is $4^x$ which means that both $log_4(4^x) = x$ and $4^(log_4(x)) = x$ hold.

Thus, to "eliminate" the logarithmic term, you need to apply $4^x$ to both sides of the equation:

$x^2/(x+1) = 4^5$

$x^2/(x+1) = 1024$

... multiply both sides with $(x+1)$ ...

$x^2 = 1024(x+1)$

... bring all the terms to the left side...

$x^2 - 1024x - 1024 = 0$

Solve the equation e.g. with the quadratic formula:

$x = (1024 +- sqrt(1024^2 + 4 * 1024))/2 ~~ (1024 +- 1025.998)/2$

$x ~~ - 0.999 " or " x ~~ 1024.999$

3) Check the domain

Now, we need to check if both $x$ fit into our domain.

Indeed, $x > -1$ and $x != 0$ holds for both of them, so both are solutions.

How do you solve log_4 x^2 - log_4 (x+1) = 5log_4 x^2 - log_4 (x+1) = 5?