Express as a single logarithm with a coefficient of 1:
$ 2(\ln(x)-\ln(x+1))-3(\ln(x^2)-\ln(x^2-1)) $ I've been trying for nearly an hour and can't seem to find the answer, can anyone help plz :S
Express as a single logarithm with a coefficient of 1:
$ 2(\ln(x)-\ln(x+1))-3(\ln(x^2)-\ln(x^2-1)) $ I've been trying for nearly an hour and can't seem to find the answer, can anyone help plz :S
Looks like this what you are looking for: [first note that $\ln a+\ln b=\ln(ab)$, $\ln a-\ln b=\ln(a/b)$ and $x\ln a=\ln (a^x)$; assuming all the $\ln$'s exist]
Your expression $=2\ln x+3\ln(x^2-1)-[2\ln(x+1)+3\ln(x^2)]$ $=\ln[x^2.(x^2-1)^3]-\ln[(x+1)^2.(x^2)^3]$ $=\ln\frac{x^2.(x^2-1)^3}{(x+1)^2.x^6}$ $=\ln (1+\frac{1}{x})(1-\frac{1}{x})^3$
Use the following rules for logarithms:
$\ln(a)-\ln(b) = \ln\left(\frac{a}{b}\right)\\ c\cdot \ln(d) = \ln(d^c)$