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Atomic Mass units and. Isotopic Composition. Mr. Shields Regents Chemistry U01 L05. Atomic Mass. Up to now we discussed Atomic mass number in terms of The Number of Neutrons and Protons Ex. 8p + 9n = atomic mass number 17 But mass should tell us how much matter is present.
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Atomic Mass units and Isotopic Composition Mr. Shields Regents Chemistry U01 L05
Atomic Mass Up to now we discussed Atomic mass number in terms of The Number of Neutrons and Protons Ex. 8p + 9n = atomic mass number 17 But mass should tell us how much matter is present. What does “17” really tell us about how much matter (mass) is present?
Atomic Mass • Remember - Neutrons and Protons DON’T really • Have the same mass. • Mass of a Proton = 1.6726 x 10-24 gram • Mass of a Neutron = 1.6749 x 10-24 gram • So a neutron is really a little heavier than a Proton. • So what’s the implication? If I have 19 neutrons and 19 protons in a nucleus it DOES NOT have exactly the same mass as A nucleus with 21 neutrons and 17 protons even though The stated mass number is the same (38)
Atomic Mass Let’s look at the mass of one of the isotopes of Carbon. Carbon-12: 6 protons + 6 neutrons • 6p x (1.6726 x 10-24) + 6 x (1.6749 x 10-24) grams • 1 atom of carbon-12 = 2.00850 x 10-23 grams • But this is an “awkward” number to work with
Atomic Mass Units Instead of actual weights in grams Scientist use a unit called an ATOMIC MASSUNIT - Abbreviated “AMU” • Scientist decide NOT to base the • AMU on either the proton or neutron • Instead an arbitrary “Standard” • was chosen
Atomic Mass Unit • The “Standard” they chose was an isotope of Carbon • - Carbon-12 (REMEMBER THIS!!) The mass of CARBON-12 was defined to be EXACTLY equal to 12 AMU’s • In other words 1 AMU EQUALS 1/12 the mass of a • Carbon-12 Atom • 1 AMU is slightly less than the mass of either a • neutron or a proton • - 1 AMU = 1.661 x 10-24 g
AMU’s EXCEPT for Carbon-12 the MASS of an atom in AMU’s is NEVER EXACTLY the same as it’s MASS NUMBER For example here’s some examples of AMU’s vs Mass No. Atomic Mass in AMU’sMass # Proton 1.007825 1 Carbon-12 12.00000 12 Oxygen-16 15.994915 16 Magnesium-25 24.985837 25 Nickel-60 59.930791 60 Uranium-235 235.043925 235
liquid Isotopic Abundance/Composition • In nature an element may have several isotopes • Isotopes have a specific percent • composition no matter where the • sample is collected on earth. For example, oxygen in the air we breath has this composition: % AMU Oxygen-16 99.76% 15.994915 Oxygen-17 0.038% 16.999132 Oxygen-18 0.200% 17.999160 Total: 100.00%
Relative Abundance These %’s are known as The “Relative Abundances” of the isotope. • In our example of Oxygen the Average AMU’s of a sample of • Oxygen must be between 15.994915 and 17.999160. Why? • The AVERAGE MASS of all the elements isotopes is called • the ATOMIC MASS or the ATOMIC WEIGHT • THIS IS DIFFERENT THAN ATOMIC Mass Number
Isotopic Composition • So how do we calculate Atomic Mass? • Well it’s simply a weighted average. Since we’re considering Oxygen …. Rel AbundanceAMU Oxygen-16 99.762% 15.994915 Oxygen-17 0.038% 16.999132 Oxygen-18 0.200% 17.999160 total: 100% So, What is the Atomic Mass for Oxygen?
Isotopic Composition Remember: the Atomic mass is the Avg. Atomic massof all the elements isotopes & we need to use a weighted avg. to Calculate it. i.e. (Mass x abundance) + (mass x Abundance) etc. (.9976 x 15.994915) + (.00037 x 16.999132) + (.00204 x 17.999160) = (15.956527) + (0.006290) + (0.036718) = 15.9995 LOOK AT OXYGEN’S MASS ON THE PERIODIC TABLE. Is it pretty close to our answer ?
Estimating Atomic Mass Look at our Calculated average Atomic Mass of Oxygen (15.9995) and the relative abundance of the isotopes Of Oxygen. Abundance AMU Oxygen-16 99.762% 15.994915 Oxygen-17 0.038% 16.999132 Oxygen-18 0.200% 17.999160 Could you guess what the Calculated Atomic mass would be Close to? Which isotope is present in the greatest amount? Isn’t it’s mass pretty close to the calculated value?
Estimating Atomic Mass 1. In the following problem which isotope will have a mass Closest to the actual atomic mass? 2. Calculate the atomic mass of Chlorine (Assume these values are correct though they are not) Abundance AMU Chlorine-35 70% 35.0 Chlorine-37 30% 37.0 1. Chlorine 35 2. (0.70 x 35) + (0.30 x 37) = 24.5 + 11.1 = 35.6 AMU