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Studying the decay of radioactive isotopes in dead organisms helps scientists identify fossilized remains. The ratio of C-12 to C-14 in the atmosphere is [tex]$1 \times 10^{12}$[/tex]. The table shows this ratio inside the body of three organisms:

\begin{tabular}{|c|c|}
\hline
Organism & C12/C14 Ratio \\
\hline
E & [tex]$8 \times 10^{12}$[/tex] \\
\hline
F & [tex]$1 \times 10^{12}$[/tex] \\
\hline
G & [tex]$4 \times 10^{12}$[/tex] \\
\hline
\end{tabular}

What can most likely be concluded from the above information?

A. Only Organism F is alive, and Organism G died before Organism E.
B. Only Organism F is alive, and Organism E died before Organism G.
C. Only Organism E is alive, and Organism G died before Organism F.
D. Only Organism E is alive, and Organism F died before Organism G.

Sagot :

GinnyAnsweridn
To determine the correct conclusions from the given data, let's analyze the information step-by-step:

1. Understanding the Ratios:
- The C-12 to C-14 ratio in the atmosphere is [tex]\(1 \times 10^{12}\)[/tex].
- For living organisms, the C-12 to C-14 ratio should be approximately the same as the atmospheric ratio because they are ingesting C-14 at the same rate it is decaying.
- After an organism dies, it stops absorbing C-14. Over time, C-14 decays into N-14, causing the C-12 to C-14 ratio to increase.

2. Analyzing Each Organism:
- Organism E: The C-12 to C-14 ratio is [tex]\(8 \times 10^{12}\)[/tex]. This is significantly higher than the atmospheric ratio. Hence, Organism E is likely dead and has been for a considerable amount of time to allow this much C-14 to decay.
- Organism F: The C-12 to C-14 ratio is [tex]\(1 \times 10^{12}\)[/tex], which matches the atmospheric ratio. Therefore, Organism F is likely still alive as it maintains the same ratio as the atmospheric conditions.
- Organism G: The C-12 to C-14 ratio is [tex]\(4 \times 10^{12}\)[/tex]. This is higher than the atmospheric ratio but not as high as Organism E's ratio. Thus, Organism G is also dead but hasn't been dead as long as Organism E.

3. Conclusion:
- Living Status: Only Organism F is alive because its C-12 to C-14 ratio is the same as the atmospheric ratio.
- Death Order: Since Organism E has a higher C-12 to C-14 ratio than Organism G, Organism E has been dead longer, indicating that Organism E died before Organism G.

Thus, the most likely conclusion is:
Only Organism F is alive, and Organism E died before Organism G.

The correct answer is:
Only Organism F is alive, and Organism E died before Organism G.
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