Answer
$\approx1.9731$
Work Step by Step
Using $\log_b a=\dfrac{\log a}{\log b}$ or the Change-of-Base Formula and the laws of logarithms, the given expression, $
\log 94
,$ evaluates to
\begin{array}{l}\require{cancel}
\dfrac{\log 94}{\log 10}
\\\\\approx
\dfrac{1.9731}{1}
\\\\
\approx1.9731
.\end{array}