Calculating Average Atomic Mass Worksheet Name
Name _______________________________________ Date ________________________ Period _________
CLASSWORK: Calculating Average Atomic mass
Show all the calculations below. Show ALL your work!!
1. The element copper has naturally occurring isotopes with mass numbers of 63 and 65.
The relative abundance and atomic masses are 69.2% for a mass of 62.93amu and 30.8% for a mass of 64.93amu. Calculate the average atomic mass of copper.
2. Calculate the average atomic mass of sulfur if 95.00% of all sulfur atoms have a mass of 31.972 amu, 0.76% has a mass of 32.971amu and 4.22% have a mass of 33.967amu.
Name _______________________________________ Date ________________________ Period _________
CLASSWORK: Calculating Average Atomic mass
Show all the calculations below. Show ALL your work!!
1. The element copper has naturally occurring isotopes with mass numbers of 63 and 65.
The relative abundance and atomic masses are 69.2% for a mass of 62.93amu and 30.8% for a mass of 64.93amu. Calculate the average atomic mass of copper.
2. Calculate the average atomic mass of sulfur if 95.00% of all sulfur atoms have a mass of 31.972 amu, 0.76% has a mass of 32.971amu and 4.22% have a mass of 33.967amu.
3. The three isotopes of lead are shown below, each with its percent by mass abundance and the composition of its nucleus. Using the following data, first calculate the approximate atomic mass of each isotope. Then calculate the average atomic mass of lead. SHOW WORK BELOW THE TABLE.
|# Protons |82 |7 |82 |
|# Neutrons |122 |124 |125 |
|Mass Number | | | |
|Percent Abundance |1.37% |26.26% | |
|Average Atomic Mass | |
4. An atom has the following three isotopes: 24 amu (percent abundance = 78.99%), 25 amu (percent abundance = 10.00%), and 26 amu (percent abundance = 11.01%). Calculate the average atomic mass. What is the identity of this atom based on your calculation?
3. The three isotopes of lead are shown below, each with its percent by mass abundance and the composition of its nucleus. Using the following data, first calculate the approximate atomic mass of each isotope. Then calculate the average atomic mass of lead. SHOW WORK BELOW THE TABLE.
|# Protons |82 |7 |82 |
|# Neutrons |122 |124 |125 |
|Mass Number | | | |
|Percent Abundance |1.37% |26.26% | |
|Average Atomic Mass | |
4. An atom has the following three isotopes: 24 amu (percent abundance = 78.99%), 25 amu (percent abundance = 10.00%), and 26 amu (percent abundance = 11.01%). Calculate the average atomic mass. What is the identity of this atom based on your calculation?
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