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1/3log(1-x)=log(x+1)+1/3

1/3log(1-x)=log(x+1)+1/3-example-1
User Yogesh Sanchihar
by
3.2k points

1 Answer

21 votes
21 votes

Answer:


x = -0.472 \; \sf (3\;d.p.)

Explanation:

Given equation:


(1)/(3) \log(1-x)=\log(x+1)+(1)/(3)


\textsf{Apply the log power law}: \quad n\log_ax=\log_ax^n


\implies \log(1-x)^{(1)/(3)}=\log(x+1)+(1)/(3)

Subtract log(x + 1) from both sides:


\implies \log(1-x)^{(1)/(3)}-\log(x+1)=(1)/(3)


\textsf{Apply the log quotient law}: \quad \log_ax - \log_ay=\log_a \left((x)/(y)\right)


\implies \log \left(\frac{(1-x)^{(1)/(3)}}{x+1}\right)=(1)/(3)


\textsf{Apply the log law}: \quad \log_ab=c \iff a^c=b


\implies 10^{(1)/(3)}=\frac{(1-x)^{(1)/(3)}}{x+1}


\textsf{Apply the exponent rule}: \quad a^{(1)/(n)}=\sqrt[n]{a}


\implies \sqrt[3]{10} =\frac{\sqrt[3]{1-x}}{x+1}

Multiply both sides by (x + 1):


\implies \sqrt[3]{10}(x+1)=\sqrt[3]{1-x}}

Cube both sides:


\implies 10(x+1)^3=1-x

Expand the left side:


\implies 10(x+1)(x+1)(x+1)=1-x


\implies 10(x+1)(x^2+2x+1)=1-x


\implies 10(x^3+3x^2+3x+1)=1-x


\implies 10x^3+30x^2+30x+10=1-x

Subtract 1 and add x to both sides:


\implies 10x^3+30x^2+31x+9=0

Find the roots of the cubic function by graphing, using a calculator, or by a numerical method.

Real root:


x = -0.472 \; \sf (3\;d.p.)

Complex roots:


x=(-1.264 + 0.556i)\; \sf (3\;d.p.)


x=(-1.264 - 0.556i)\; \sf (3\;d.p.)

Therefore, the only valid solution is the real root:


x = -0.472 \; \sf (3\;d.p.)

As we can only take logs of positive numbers, substitute the real root into (1 - x) and (x + 1) to check:


x=-0.472 \implies 1-(-0.472)=1.472 > 0


x=-0.472 \implies -0.472+1=0.528 > 0

As both results are positive, this is a valid solution for the given equation.

(Proof of the solution is in the attached graph).

1/3log(1-x)=log(x+1)+1/3-example-1
User Sanja
by
2.5k points
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