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The relative atomic mass of copper is 63.5. Explain why this value is not a whole number

User Andrey Dyatlov
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2 Answers

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Final answer:

The relative atomic mass of copper (Cu) is not a whole number because copper has two stable isotopes: copper-63 (63Cu) and copper-65 (65Cu). The atomic mass of copper is the weighted average of the masses of these two isotopes, taking into account their natural abundances.

Step-by-step explanation:

The relative atomic mass of copper (Cu) is not a whole number because copper has two stable isotopes: copper-63 (63Cu) and copper-65 (65Cu). The atomic mass of copper is the weighted average of the masses of these two isotopes, taking into account their natural abundances.

The atomic mass of 63Cu is 62.929595 g/mol, and its abundance is 69.09%. The atomic mass of 65Cu is 64.927786 g/mol, and its abundance is 30.91%. Using these values, we can calculate the atomic mass of copper.

The formula to calculate the relative atomic mass of an element is:

(Atomic mass of 63Cu * Abundance of 63Cu) + (Atomic mass of 65Cu * Abundance of 65Cu)

Therefore, the relative atomic mass of copper is:

(62.929595 * 0.6909) + (64.927786 * 0.3091) = 63.55 g/mol

User Emanuele Pavanello
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This answer is not a whole number due to the fact that it is a decimal form.

A whole number would be 635, it would not be 63.5. Therefore this number is not whole.

User Sporkthrower
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