Convert to natural logs: (\log_x 2 = \frac{\ln 2}{\ln x}), (\log_{2x} 2 = \frac{\ln 2}{\ln(2x)}), (\log_{4x} 2 = \frac{\ln 2}{\ln(4x)}).
Equation: (\frac{\ln(2x+3)}{\ln x} + \frac{\ln(x+2)}{\ln(x+1)} = 2). hard logarithm problems with solutions pdf
Inequality: (\log_{0.2} Y >0). Since base 0.2<1, inequality reverses when exponentiating: (0 < Y < 1) (and (Y>0) already). So (0 < \log_2 (x^2-5x+7) < 1). Convert to natural logs: (\log_x 2 = \frac{\ln
(0 < \log_2 A < 1 \Rightarrow 1 < A < 2 \Rightarrow 1 < x^2-5x+7 < 2). (\log_{2x} 2 = \frac{\ln 2}{\ln(2x)})
Left: (x^2-5x+6>0 \Rightarrow x<2) or (x>3) (same as domain). Right: (x^2-5x+5<0). Roots: (\frac{5\pm\sqrt{5}}{2} \approx 1.38, 3.62). So ( \frac{5-\sqrt{5}}{2} < x < \frac{5+\sqrt{5}}{2}).