Mass Of Cl

  

Agilent IDP-3 Dry Pump - for 5973/5975/5977 MSD, no more oil. Naturally occurring chlorine is 75.78% 35 Cl, which has an atomic mass of 34.969 amu, and 24.22% 37 Cl, which has an atomic mass of 36.966 amu. Calculate the average atomic mass (that is, the atomic weight) of chlorine. The average atomic mass is found by multiplying the abundance of each isotope by its atomic mass and summing these.

Learning Objectives

  • Define atomic mass.
  • Calculate atomic mass given relevant information about the isotopes.

Have you ever tried to move a boulder?

Mass

You have a pile of rocks to move and need to decide what equipment you want to rent to move them. If the rocks are fairly small, you can get a shovel to pick them up. Larger rocks could be moved by hand, but big boulders will need some sort of mechanical scoop. The amount of each kind of rock will also determine how much time you will need to get the job done. Knowing the relative amounts of large, medium, and small rocks can be very useful in deciding how to approach the job.

Most elements occur naturally as a mixture of two or more isotopes. Table below shows the natural isotopes of several elements, along with the percent natural abundance of each.

Atomic Masses and Percent Abundances of Some Natural Isotopes
Element Isotope (symbol)Percent natural abundanceAtomic mass (amu)Average atomic mass (amu)
Hydrogen[latex]^1_1text{H}[/latex]

99.985

1.0078

1.0079
[latex]^2_1text{H}[/latex]0.0152.0141
[latex]^3_1text{H}[/latex] negligible 3.0160
Carbon[latex]^{12}_6text{C}[/latex]

98.89

12.000

12.011
[latex]^{13}_6text{C}[/latex]1.1113.003
[latex]^{14}_6text{C}[/latex]trace 14.003
Oxygen

[latex]^{16}_8text{O}[/latex]

99.759

15.995

15.999
[latex]^{17}_8text{O}[/latex]0.03716.995
[latex]^{18}_8text{O}[/latex]0.204 17.999
Chlorine

[latex]^{35}_{17}text{Cl}[/latex]

75.77

34.969

35.453
[latex]^{37}_{17}text{Cl}[/latex]24.23 36.966
Copper

[latex]^{63}_{29}text{Cu}[/latex]

69.17

62.930

63.546
[latex]^{65}_{29}text{Cu}[/latex] 30.83 64.928

For some elements, one particular isotope predominates greatly over the other isotopes. Naturally occurring hydrogen is nearly all hydrogen-1 and naturally occurring oxygen is nearly all oxygen-16. For many other elements, however, more than one isotope may exist in more substantial quantities. Chlorine (atomic number 17) is a yellowish-green toxic gas. About three quarters of all chlorine atoms have 18 neutrons, giving those atoms a mass number of 35. About one quarter of all chlorine atoms have 20 neutrons, giving those atoms a mass number of 37. Were you to simply calculate the arithmetic average of the precise atomic masses, you would get 36.

[latex]displaystylefrac{left(34.969+36.966right)}{2}=35.968text{ amu}[/latex]

Clearly the actual average atomic mass from the last column of the table is significantly lower. Why? We need to take into account the percent natural abundances of each isotope in order to calculate what is called the weighted average. The atomic mass of an element is the weighted average of the atomic masses of the naturally occurring isotopes of that element. The sample problem below demonstrates how to calculate the atomic mass of chlorine.

Sample Problem: Calculating Atomic Mass

Use the atomic masses of each of the two isotopes of chlorine along with their percent abundances to calculate the average atomic mass of chlorine.

Step 1: List the known and unknown quantities and plan the problem.

Known

  • chlorine-35: atomic mass = 34.969 amu and % abundance = 75.77%
  • chlorine-37: atomic mass = 36.966 amu and % abundance = 24.23%

Unknown

  • Average atomic mass of chlorine

Change each percent abundance into decimal form by dividing by 100. Multiply this value by the atomic mass of that isotope. Add together for each isotope to get the average atomic mass.

Step 2: Calculate

chlorine-350.7577 × 34.969 = 26.50 amu
chlorine-370.2423 × 26.966 = 8.957 amu
average atomic mass26.50 + 8.957 = 35.45 amu

Note: Applying significant figure rules results in the 35.45 amu result without excessive rounding error. In one step:

(0.7577 × 34.969) + (0.2423 × 36.966) = 35.45 amu

Step 3: Think about your result.

The calculated average atomic mass is closer to 35 than to 37 because a greater percentage of naturally occurring chlorine atoms have the mass number of 35. It agrees with the value from the Table above .

Watch these videos to learn more about these calculations:

Molar Mass Of Cl

Summary

  • The atomic mass of an element is the weighted average of the atomic masses of the naturally occurring isotopes of that element.
  • Calculations of atomic mass use the percent abundance of each isotope.

Practice

Click on the link below to get some experience in atomic mass determinations:

Review

  1. Define atomic mass.
  2. What information do you need to calculate atomic mass for an element?
  3. Calculate the atomic mass for carbon using the data provided in Table below.

Mass Of Cl

mass number

exact weight Imessage password.

percent abundance

12

12.000000

98.90

13

13.003355

1.10

Glossary

  • atomic mass: The weighted average of the atomic masses of the naturally occurring isotopes of that element.
  • percent abundance: To calculate the weighted average, take into account the percent natural abundances of each isotope. The atomic mass of an element is the weighted average of the atomic masses of the naturally occurring isotopes of that element.
Show References

References

Mass Of Chloride

  1. Devon Fyson, based on image created by the U.S. Geological Survey. http://commons.wikimedia.org/wiki/File:Mass_Spectrometer_Schematic.svg.
  2. George M. Groutas. http://www.flickr.com/photos/jorge-11/4777791888/.