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Concept Check 2.1 Atomic Size

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1 Concept Check 2.1 Atomic Size PROBLEM 2.1: The diameter of a US dime is 17.9 mm, and the diameter of a silver atom is 2.88 Å. How many silver atoms could be arranged side by side across the diameter of a dime? (NOTE: 1 Å = m) SOLUTION: The unknown is the number of silver (Ag) atoms. Using the relationship 1 Ag atom = 2.88 Å as a conversion factor relating number of atoms and distance, we start with the diameter of the dime, first converting this distance into angstroms and then using the diameter of the Ag atom to convert distance to number of Ag atoms: That is, 62.2 million silver atoms could sit side by side across a dime!

2 Concept Check 2.2 Atomic Size PROBLEM 2.2: The diameter of a carbon atom is 1.54 Å. (a) Express this diameter in picometers. (b) How many carbon atoms could be aligned side by side across the width of a pencil line that is 0.20 mm wide? Answer: (a) 154 pm, (b) 1.3  106 C atoms

3 Determining the Number of Subatomic Particles in Atoms
Concept Check 2.3 & 2.4 Determining the Number of Subatomic Particles in Atoms PROBLEM 2.3: How many protons, neutrons, and electrons are in (a) an atom of 197Au, (b) an atom of strontium-90? SOLUTION: (a) atomic number = protons = 79 neutral atom, protons = electrons = 79 mass number – protons = neutrons = 197 – 79 = 118 (b) atomic number = protons = 38 neutral atom, protons = electrons = 38 mass number – protons = neutrons = 90 – 38 = 52 Answer: (a) The superscript 197 is the mass number (protons + neutrons). According to the list of elements given on the inside front cover, gold has atomic number 79. Consequently, an atom of 197Au has 79 protons, 79 electrons, and 197 – 79 = 118 neutrons. (b) The atomic number of strontium (listed on inside front cover) is 38. Thus, all atoms of this element have 38 protons and 38 electrons. The strontium-90 isotope has 90 – 38 = 52 neutrons. Answer: (a) 56 protons, 56 electrons, and 82 neutrons, (b) 15 protons, 15 electrons, and 16 neutrons PROBLEM 2.4: How many protons, neutrons, and electrons are in (a) a 138Ba atom, (b) an atom of phosphorus-31?

4 Writing Symbols for Atoms
Concept Check 2.5 & 2.6 Writing Symbols for Atoms PROBLEM 2.5: Magnesium has three isotopes with mass numbers 24, 25, and 26. (a) Write the complete chemical symbol (superscript and subscript) for each. (b) How many neutrons are in an atom of each isotope? SOLUTION: neutrons = mass number – protons Mg neutrons Mg neutrons Mg neutrons Answer: (a) Magnesium has atomic number 12, so all atoms of magnesium contain 12 protons and 12 electrons. The three isotopes are therefore represented by 24/12Mg, 25/12Mg, and 26/12Mg. (b) The number of neutrons in each isotope is the mass number minus the number of protons. The numbers of neutrons in an atom of each isotope are therefore 12, 13, and 14, respectively. Answer: Element symbol capital P lowercase b, atomic number is 82, written as a subscript on the left and mass number is 208, written as a superscript on the left. PROBLEM 2.6: Give the complete chemical symbol for the atom that contains 82 protons, 82 electrons, and 126 neutrons.

5 Atomic weight = (0.7578)(34.969 amu) + (0.2422)(36.966 amu)
Concept Check 2.7 Calculating the Atomic Weight of an Element from Isotopic Abundances PROBLEM 2.7: Naturally occurring chlorine is 75.78% 35Cl (atomic mass amu) and 24.22% 37Cl (atomic mass amu). Calculate the atomic weight of chlorine. SOLUTION: Atomic weight = (0.7578)( amu) + (0.2422)( amu) = amu amu = amu Answer: We can calculate the atomic weight by multiplying the abundance of each isotope by its atomic mass and summing these products. Because 75.78% = and 24.22% = , we have This answer makes sense: The atomic weight, which is actually the average atomic mass, is between the masses of the two isotopes and is closer to the value of 35Cl, the more abundant isotope.

6 Calculating the Atomic Weight of an Element from Isotopic Abundances
Concept Check 2.8 Calculating the Atomic Weight of an Element from Isotopic Abundances PROBLEM 2.8: Three isotopes of silicon occur in nature: 28Si (92.23%), atomic mass amu; 29Si (4.68% ), atomic mass amu; and 30Si (3.09%), atomic mass amu. Calculate the atomic weight of silicon. Answer: amu

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