QuestionAugust 13, 2025

E. 1. Scaling Lab Data In a lab, you measure the mass of a copper wire as 0.0000735 kg. Your classmate records it as 7.35times 10^-5kg, but another student argues it should be recorded in grams instead. Task: Convert the mass into grams in scientific notation and justify why grams might be more practical in this context.

E. 1. Scaling Lab Data In a lab, you measure the mass of a copper wire as 0.0000735 kg. Your classmate records it as 7.35times 10^-5kg, but another student argues it should be recorded in grams instead. Task: Convert the mass into grams in scientific notation and justify why grams might be more practical in this context.
E. 1. Scaling Lab Data In a lab, you measure the mass of a copper wire as 0.0000735 kg. Your classmate records it as 7.35times 10^-5kg, but another student argues it should be recorded in grams instead. Task: Convert the mass into grams in scientific notation and justify why grams might be more practical in this context.

Solution
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Answer

7.35 \times 10^{-2} \text{ g} Explanation 1. Convert kg to grams To convert from kilograms to grams, multiply by 1000. So, 0.0000735 \text{ kg} = 0.0000735 \times 1000 = 0.0735 \text{ g}. 2. Express in scientific notation Write 0.0735 g in scientific notation as 7.35 \times 10^{-2} \text{ g}. 3. Justify using grams Grams are more practical for small masses like this because they provide a more intuitive and readable number without leading zeros.

Explanation

1. Convert kg to grams<br /> To convert from kilograms to grams, multiply by 1000. So, $0.0000735 \text{ kg} = 0.0000735 \times 1000 = 0.0735 \text{ g}$.<br /><br />2. Express in scientific notation<br /> Write 0.0735 g in scientific notation as $7.35 \times 10^{-2} \text{ g}$.<br /><br />3. Justify using grams<br /> Grams are more practical for small masses like this because they provide a more intuitive and readable number without leading zeros.
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