Jane was tasked with solving a logarithmic equation: $$ \log_2(2x)-\log_2 8=1 $$ She solved it in the following way:
(1) First, she determined the domain of the logarithm: $$ \begin{aligned} 2x>0 \cr x \in (0;\infty) \end{aligned} $$
(2) Applying the logarithm rules, she modified the left side of the equation: $$ \log_22+\log_2x-\log_22+\log_24=1 $$
(3) Then, she simplified the left side of the equation (subtracting $\log_22$): $$ \log_2x+\log_24=1 $$
(4) She then modified the left side of the equation again to obtain the logarithmic equation in basic form: $$ \begin{aligned} \log_2x+\log_22+\log_22=1 \cr \log_2x+1+1=1 \cr \log_2x=-1 \end{aligned} $$
(5) She applied the logarithm property: $$ \log_ax=v \Leftrightarrow x=a^v $$ and received: $$ \begin{aligned} x & =2^{-1} \cr x & =\frac12 \end{aligned} $$
(6) She observed that this result belongs to the domain. Finally, she did the check: $$ \begin{aligned} L & =\log_2(2 \cdot \frac12)-\log_28=\log_2 \frac18=-3 \cr R & =1 \cr L & \neq R \end{aligned} $$
(7) Since the check did not come out, Jane stated that the given equation has no solution.
Did Jane make a mistake? If yes, identify where:
She made the mistake in step (1) regarding the domain. It should have been $2x\geq 0$.
She made the mistake in step (2). The modification of the left side of the equation is not correct.
She made the mistake in step (4). It is not true that $\log_24=\log_22+ \log_22$ .
The mistake is in step (5). It should have been: $$ \begin{aligned} \log_2x & =-1 \cr x & =2^{-1}\cr x & =-2 \end{aligned} $$
There is no mistake in the procedure.
Jane made the mistake in step (2) by forgetting to use parentheses. Instead of: $$ \log_2 2 + \log_2 x − \log_2 2 + \log_2 4 = 1 $$ it should have been: $$ \log_2 2 + \log_2 x − (\log_2 2 + \log_2 4) = 1 $$ Simplifying the previous equation, we obtain (realizing that $\log_2 4 = 2$): $$\begin{gather} \log_2 x = 3 \cr x = 2^3 \cr x = 8 \end{gather} $$ The root $x = 8$ belongs to the domain, and the equation has only one solution $x = 8$. We can, but do not have to, do the check.
Note: The equation can also be solved in another way. If we realize that $\log_2 8 = 3$ than we can simplify and solve the equation as follows: $$ \begin{gather} \log_2(2x) − \log_2 8 = 1 \cr \log_2(2x) = 4 \cr 2x = 2^4 \cr 2x = 16 \cr x = 8\end{gather} $$