Original question :
$$\frac{\tan(x)}{\log_e x}$$
I used the quotient rule and got the following fraction.
Fraction :
$$\frac{\frac {x \cdot \sec(x)^2 \cdot (\log_e x) - \tan(x)}{x}}{\log_e x}$$
apologies in advance for the fractions, i tried to put in $\log_e x$ underneath the denominator of the other fraction but for some reason it wasn't working.
I looked at the answer here:
My main issue is I nearly solved the whole thing, but towards the end they use this rule : $b/c/a = b/ca$. Before I solved this equation in the previous they used a this rule : $a/b/c = ac/b$. How do I identify which one is $a,b,c$. Because I used the rule from the previous equation and got my simplification wrong towards the end.
Let $$f(x)=\frac{\tan x}{\ln x}$$ Using the Quotient Rule, we get $$f'(x)=\frac{\tan'x\cdot\ln x - \tan x \cdot \ln'x}{\ln^2x}=\frac{\frac{\ln x}{\cos^2 x}-\frac{\sin x}{x\cos x}}{\ln^2x}=\frac{x\ln x - \sin x \cos x}{x\cos^2x\ln^2x}$$ on multiplying numerator and denominator by $x\cos^2x$.
If you prefer to split it in fractions, $$f'(x)=\frac1{\ln x \cos^2x}-\frac{\tan x}{x\ln^2x}$$