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Determine the value of [tex]\( x \)[/tex] such that [tex]\( \log_6 225 \ \textgreater \ x \)[/tex].

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GinnyAnsweridn
Certainly! We are tasked with determining whether the logarithm of 225 to the base 6 is greater than a particular value [tex]\( x \)[/tex]. Specifically, we are given that:

[tex]\[ \log_6 225 > x \][/tex]

We need to find out what value [tex]\( x \ should be such that this inequality holds true. To find \(\log_6 225\)[/tex], we start by understanding the logarithmic function [tex]\(\log_b a\)[/tex], which represents the exponent [tex]\( y \)[/tex] such that [tex]\( b^y = a \)[/tex].

Here, [tex]\( b = 6 \)[/tex] and [tex]\( a = 225 \)[/tex]. We are essentially looking for:

[tex]\[ 6^y = 225 \][/tex]

By solving this, we find that:

[tex]\[ y = \log_6 225 \][/tex]

To verify the inequality, we calculate the value of [tex]\(\log_6 225\)[/tex]. Upon determining the value, we find:

[tex]\[ y \approx 3.0227831889387713 \][/tex]

Thus, the inequality [tex]\(\log_6 225 > x\)[/tex] can be satisfied by [tex]\( x \)[/tex] values less than this logarithm value:

[tex]\[ 3.0227831889387713 > x \][/tex]

In conclusion, any [tex]\( x \)[/tex] less than [tex]\( 3.0227831889387713 \)[/tex] will satisfy the inequality [tex]\(\log_6 225 > x\)[/tex]. Therefore:

[tex]\[ \log_6 225 \approx 3.0227831889387713 \][/tex]

So, the solution to the inequality [tex]\( \log_6 225 > x \)[/tex] implies that [tex]\( x\)[/tex] must be less than approximately 3.0227831889387713.
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