Answered

IDNLearn.com is designed to help you find reliable answers to any question you have. Discover comprehensive answers to your questions from our community of experienced professionals.

What is the average atomic mass of the element in the data table?

\begin{tabular}{|c|c|}
\hline Mass (amu) & Abundance (\%) \\
\hline 12.00 & 98.93 \\
\hline 13.00 & 1.07 \\
\hline
\end{tabular}

A. 53.75 amu
B. 12.01 amu
C. 29.96 amu
D. 86.45 amu

Sagot :

GinnyAnsweridn
To find the average atomic mass of the element given the data table with masses and abundances, follow these steps:

1. List the masses and their respective abundances:
- Mass: [tex]\( 12.00 \)[/tex] amu, Abundance: [tex]\( 98.93\% \)[/tex]
- Mass: [tex]\( 13.00 \)[/tex] amu, Abundance: [tex]\( 1.07\% \)[/tex]

2. Convert the abundances from percentages to fractions:
- For the first isotope: [tex]\( 98.93\% \)[/tex] becomes [tex]\( 0.9893 \)[/tex] (which is [tex]\( 98.93 \div 100 \)[/tex]).
- For the second isotope: [tex]\( 1.07\% \)[/tex] becomes [tex]\( 0.0107 \)[/tex] (which is [tex]\( 1.07 \div 100 \)[/tex]).

3. Multiply each mass by its respective fractional abundance to find the contribution of each isotope to the average atomic mass:
- Contribution of the first isotope: [tex]\( 12.00 \times 0.9893 = 11.8716 \)[/tex]
- Contribution of the second isotope: [tex]\( 13.00 \times 0.0107 = 0.1391 \)[/tex]

4. Sum these contributions to get the average atomic mass:
[tex]\[ 11.8716 + 0.1391 = 12.0107 \][/tex]

Therefore, the average atomic mass of the element is [tex]\( 12.0107 \)[/tex] amu, which, when rounded to the nearest hundredth, is [tex]\( 12.01 \)[/tex] amu.

So, the correct answer is:
[tex]\[ \boxed{12.01 \text{ amu}} \][/tex]
Thank you for using this platform to share and learn. Don't hesitate to keep asking and answering. We value every contribution you make. IDNLearn.com provides the best answers to your questions. Thank you for visiting, and come back soon for more helpful information.