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a. The following information refers to the isotopes of copper and was collected by using a mass spectrometer - VCE - SSCE Chemistry - Question 3 - 2006 - Paper 1
Question 3
a. The following information refers to the isotopes of copper and was collected by using a mass spectrometer. | Isotope | Relative isotopic mass | | ------- | -----... show full transcript
Worked Solution & Example Answer:a. The following information refers to the isotopes of copper and was collected by using a mass spectrometer - VCE - SSCE Chemistry - Question 3 - 2006 - Paper 1
Step 1
Calculate the Percentage Abundance of the 63Cu Isotope
Answer
Let the percentage abundance of the 63Cu isotope be denoted as x. The percentage abundance of the 65Cu isotope will then be (100 - x).
Using the formula for calculating the relative atomic mass:
ext{Relative atomic mass} = rac{(x imes 62.93) + ((100 - x) imes 64.93)}{100}
Substituting the known relative atomic mass of copper (63.54):
63.54 = rac{(x imes 62.93) + ((100 - x) imes 64.93)}{100}
Multiplying both sides by 100:
Expanding the equation:
Combining like terms:
Rearranging gives:
Therefore:
x = rac{139}{2} = 69.5
Hence, the percentage abundance of the 63Cu isotope is approximately 69.5%.
Step 2
Step 3
Explain why there are exactly 10 elements in each of the series of transition metals.
Answer
Transition metals are characterized by having partially filled d-orbitals. The d-subshell can hold a maximum of 10 electrons. As we move across the periodic table from scandium (Sc) to zinc (Zn), we fill this d-subshell sequentially. Hence, in each transition series, which runs from the first element with a d-orbital up to the element at which the d-orbital begins to fill, there are exactly 10 elements corresponding to the 10 possible electron configurations in the d-orbitals.