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\begin{tabular}{|c|c|c|c|}
\hline & Garden 1 & Garden 2 & Total \\
\hline \begin{tabular}{c}
Flower \\
Garden
\end{tabular} & 0.28 & 0.22 & 0.25 \\
\hline \begin{tabular}{c}
No Flower \\
Garden
\end{tabular} & 0.72 & 0.78 & 0.75 \\
\hline Total & 1.0 & 1.0 & 1.0 \\
\hline
\end{tabular}

Table A: Garden-Type Frequencies by Column

\begin{tabular}{|c|c|c|c|}
\cline { 2 - 4 } \multicolumn{1}{c|}{} & \begin{tabular}{c}
Vegetable \\
Garden
\end{tabular} & \begin{tabular}{c}
No Vegetable \\
Garden
\end{tabular} & Total \\
\hline \begin{tabular}{c}
Flower \\
Garden
\end{tabular} & 0.56 & 0.44 & 1.0 \\
\hline \begin{tabular}{c}
No Flower \\
Garden
\end{tabular} & 0.48 & 0.52 & 1.0 \\
\hline Total & 0.5 & 0.5 & 1.0 \\
\hline
\end{tabular}

Table B: Garden-Type Frequencies by Row

Which table could be used to answer the question: Assuming someone has a flower garden, what is the probability they also have a vegetable garden?

Sagot :

GinnyAnswer
To answer the question "Assuming someone has a flower garden, what is the probability they also have a vegetable garden?" we need to determine the conditional probability [tex]\( P(\text{Vegetable Garden} | \text{Flower Garden}) \)[/tex]. This is the probability that someone has a vegetable garden given that they already have a flower garden.

We will use the information provided in Table B, which details garden-type frequencies by rows. Here are the relevant components:
- [tex]\( P(\text{Flower Garden and Vegetable Garden}) \)[/tex]: This is the probability that someone has both a flower garden and a vegetable garden.
- [tex]\( P(\text{Flower Garden}) \)[/tex]: This is the probability that someone has a flower garden.

From Table B, we can clearly see:
- The entry in the Flower Garden row and Vegetable Garden column is [tex]\( 0.56 \)[/tex]. This represents [tex]\( P(\text{Flower Garden and Vegetable Garden}) = 0.56 \)[/tex].
- The total for the Flower Garden row is [tex]\( 1.0 \)[/tex]. This represents [tex]\( P(\text{Flower Garden}) = 1.0 \)[/tex].

The conditional probability formula is:
[tex]\[ P(\text{Vegetable Garden} | \text{Flower Garden}) = \frac{P(\text{Flower Garden and Vegetable Garden})}{P(\text{Flower Garden})} \][/tex]

Let's substitute the values:
[tex]\[ P(\text{Vegetable Garden} | \text{Flower Garden}) = \frac{0.56}{1.0} \][/tex]

Therefore,
[tex]\[ P(\text{Vegetable Garden} | \text{Flower Garden}) = 0.56 \][/tex]

So, assuming someone has a flower garden, the probability that they also have a vegetable garden is [tex]\( 0.56 \)[/tex] or 56%.
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