Review Worksheet 272 - Unit 3 1. Subatomic particle proton neutron electron NAME______KEY__________ Mass 1 amu 1 amu 0 amu Charge positive neutral negative Location nucleus nucleus outside nucleus 2. The number of protons in an atom is the same as its __atomic number___. 3. The sum of the protons and neutrons is its ___mass number___. 4. Atoms that have the same number of protons, but a different number of neutrons are called ____isotopes_____. 5. Calculate the net charge of each: 6. symbol 1 15 7 N3- 2 23 11 name Protons Neutrons 8 10 15 5 11 12 Atomic Mass number number Electrons Charge 10 28 7+ 11 0 Protons neutrons electron s Charg e nitrogen – 15 7 15 7 8 10 3- Na sodium – 23 11 23 11 12 11 0 3 18O28 oxygen – 18 8 18 8 10 10 2- 4 24 Mg 12 magnesium - 24 12 24 12 12 12 0 7. Which of these symbols represent isotopes of the same element? a. b. c. 8. The periodic table uses the element _carbon - 12__ for the basis of the atomic masses. 9. The ____average atomic mass__________ of an element is the weighted average of the masses of the isotopes of the element. 10. Calculate the average atomic mass: Isotope magnesium –24 magnesium –25 magnesium –26 mass relative abundance 23.985 24.986 25.983 78.70% = 18.876 10.13% = 2.531 11.17% = 2.902 24.309 u 11. Neon has two major isotopes, Neon-20 and Neon-22. Out of every 250 neon atoms, 225 will be Neon-20 (19.992 g/mol), and 25 will be Neon-22 (21.991 g/mol). What is the average atomic mass of Neon? 225/250 = 90% and 25/250 = 10% So… .90(19.992 u) + (.10(21.991 u) = x 17.9928 + 2.1991 = x 20.1919 u = x 12. The atomic mass of lithium is 6.94, the naturally occurring isotopes are 6Li = 6.015121 amu, and 7 Li = 7.016003 amu. Determine the percent abundance of each isotope. 6.015121(X) + 7.016003(1-X) = 6.94 6.015121(X) + 7.016003X - 7.016003) = 6.94 (6.015121x - 7.016003x) = 6.94 -7.016003 -1.000882x = -0.076003 X = 0.075936 = 7.59% so, the other % is 92.41% 13. Write the equation for the decay of polonium-218 by alpha (a) emission. 218 84 Po 14. 4 2 He + 214 82 Pb Write the equation for the beta (b-) decay of uranium-237 237 92 U 237 93 Np + 0 -1 e 15. Thallium-208 has a half-life of 3.053 min. How long will it take for 120.0g to decay to 7.50 g? 120g/24 = 7.50 g so 4 half life’s – so 12.212 minutes 16. Gold-198 has a half-life of 2.7 days. How much of a 96g sample of gold-198 will be left after 8.1 days? 8.1/2.7 = 3 half lives so 96/23 = 12 grams 17. Which of Dalton’s postulates were not correct? Atoms are indivisible and atoms of the same element are identical. 18. What did Rutherford conclude from his gold foil experiment? He concluded the there was a positive mass to the atom called the nucleus. 19. How did the plum pudding model differ from Bohr’s planetary model? Thomson’s plum pudding model was a positive mass with negative particles and no particular arrangement. Bohr established the idea of energy levels for the electrons to occupy. 20. What is the difference between an atom’s ground state and its excited state? The ground state is the energy level an electron normally occupies while the excited state occurs when the atom gains energy and electrons jump to a higher energy level. 21. Electrons in the outermost energy level are called ___valence electrons_______. 22. Write the following in orbital box notation: 1s 2s 2p 3s 3p F 4s K Element F K Valence Shell 2 4 Valence electrons 7 1 Kernel electrons 2 18 023. Write the electron configuration for each: Co 1s22s22p63s23p64s23d7 Ba 1s22s22p63s23p64s23d104p65s24d105p66s2 Element Co Ba Valence Shell 4 6 Valence electrons 2 2 Kernel electrons 25 54 24. How many p-orbitals would be occupied in an atom of fluorine? 3 p orbitals 25. What is wrong with the following notation? There is no 2d sublevel and a d-sublevel should have 5 orbitals. 2d
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