Chemical Building Blocks: Chapter 3: Elements and Periodic Table



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Name: Class: Date: Chemical Building Blocks: Chapter 3: Elements and Periodic Table Study Guide Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. Please use capital letters: A, B, C, or D. 1. In the periodic table, the most reactive metals are found a. in Group 1, the first column on the left. b. in Period 1, the first row across the top. c. in Groups 13 through 16 in the center. d. in Periods 6 and 7 at the bottom. 2. At room temperature, more than half of the nonmetal elements are a. alloys. b. gases. c. liquids. d. solids. 3. Mendeleev created the first periodic table by arranging elements in order of a. decreasing atomic mass. b. increasing atomic mass. c. increasing atomic number. d. increasing melting points and densities. 4. Which particles in atoms have a negative electric charge? a. electrons b. protons c. neutrons d. nuclei 5. Which parts of the atom move around the nucleus? a. atomic mass units b. electrons c. protons d. neutrons 6. What natural event provides enough energy for the nuclear fusion reactions that create the heaviest elements? a. a particle accelerator b. a plasma c. a nebula d. a supernova 7. The elements in a row of the periodic table a. are in the same family. b. have the same or nearly the same properties. c. have the same average atomic mass. d. have properties that change in a pattern. 8. The sun is made up mostly of a. hydrogen. b. iron. c. carbon. d. beryllium. 1

Name: 9. The atomic number of an element is based on the a. mass of its nucleus. b. number of electrons around its core. c. number of protons in its nucleus. d. number of neutrons in its nucleus. 10. Which of these statements about a column of the periodic table is true? a. The elements have similar properties. b. The elements have a wide range of properties. c. The elements have the same atomic number. d. The elements have the same atomic mass. 11. The two most common alkaline earth metals are a. copper and zinc. b. iron and silver. c. sodium and potassium. d. calcium and magnesium. 12. How does nuclear fusion create new elements inside stars? a. All the nuclei repel each other because of their positive charges. b. Small nuclei cause large nuclei to break apart. c. Large nuclei combine, then form smaller nuclei. d. Small nuclei combine to form larger nuclei. 13. To make most synthetic elements, scientists use powerful machines called a. semiconductors. b. particle accelerators. c. supernovae. d. nebulas. 14. What prediction did Mendeleev make that came true less than 20 years later? a. He predicted the atomic numbers of unknown elements. b. He predicted that a total of 112 elements would be discovered. c. He said that three new elements would be discovered, and he described their properties. d. He said that the periodic table would be developed into 18 families. 15. Which group of elements shares characteristics with both metals and nonmetals? a. salts b. metalloids c. halogens d. alloys 16. A material is said to be ductile if it a. can be pulled out, or drawn, into a long wire. b. can be hammered or rolled into flat sheets and other shapes. c. can transfer heat or electricity to another material. d. is a mixture of a metal with at least one other element. 17. Most metals are NOT a. ductile. b. good conductors of heat and electricity. c. liquid at room temperature. d. malleable. 2

Name: 18. Because atoms are so small, a. scientists create models to describe them. b. they cannot be made of smaller particles. c. there is no way to describe them. d. they cannot be synthesized by scientists. 19. The elements that do not ordinarily form compounds are a. elements in the carbon family. b. metals. c. halogens. d. noble gases. 20. What information in the periodic table indicates the number of protons in an atom? a. the position of the element in its column b. the element s chemical symbol c. the element s atomic number d. the element s atomic mass 21. How did chemists change Mendeleev s periodic table in the early 1900s? a. They included chemical properties such as bonding power. b. They included physical properties such as melting point and density. c. They used atomic mass instead of atomic number to organize the elements. d. They used atomic number instead of atomic mass to organize the elements. 22. The elements in a column of the periodic table a. have similar properties. b. are in the same period. c. have the same atomic mass. d. have very similar chemical symbols. 23. From an element s location in the periodic table, you can predict a. its properties. b. its chemical name. c. its chemical symbol. d. when it was discovered. 24. Which group contains the most elements? a. metalloids b. nonmetals c. metals d. transition elements 25. Which property of bromine could you NOT predict based on the fact that it is a nonmetal in the halogen family? a. highly reactive b. poor conductor of electricity c. liquid at room temperature d. poor conductor of heat 26. In an atom, the number of protons equals the number of a. nuclei. b. electrons. c. neutrons. d. isotopes. 3

Name: 27. Why would it probably be very difficult to determine the chemical and physical properties of a newly discovered synthetic element? a. The element would not fit in the periodic table. b. The element s nuclei would break apart very quickly. c. The element would combine the properties of the nuclei from which it was made. d. The element would lack many properties of ordinary elements. 28. In general, which of the following statements about metals is true? a. Metals need to be stored in sealed containers for safety. b. Metals show a wide range of chemical properties. c. Metals are highly reactive substances. d. Metals do not react with oxygen. Completion Complete each sentence or statement. 29. Scientists use _ to study objects and events that are too small, too large, too slow, too fast, too dangerous, or too far away to see. 30. Elements that form diatomic molecules, or molecules of two atoms each, are commonly found on the side of the periodic table. 31. Elements that easily transmit electricity and heat display the property known as. 32. Nonmetals are conductors of heat and electricity. 33. Each element is given a specific _ that usually consists of one or two letters. 34. Astronomers generally agree that the matter in the sun and its planets came from a(n), an explosion that broke apart a massive star billions of years ago. 35. An element s can be predicted from its location in the periodic table. 36. The property of an element that indicates the number of protons in its atoms is the. 37. A substance that will conduct electricity only under certain conditions is called a(n). 38. Mendeleev discovered patterns appeared when he arranged elements in order of increasing _. 4

Chemical Building Blocks: Chapter 3: Elements and Periodic Table Answer Section Study Guide MULTIPLE CHOICE 1. ANS: A DIF: L2 REF: p. K-90 OBJ: K.3.3.2 2. ANS: B DIF: L2 REF: p. K-99 OBJ: K.3.4.1 3. ANS: B DIF: L2 REF: p. K-81 OBJ: K.3.2.1 4. ANS: A DIF: L1 REF: p. K-75 OBJ: K.3.1.1 5. ANS: B DIF: L1 REF: p. K-75 OBJ: K.3.1.1 6. ANS: D DIF: L1 REF: p. K-111 OBJ: K.3.5.2 7. ANS: D DIF: L1 REF: p. K-86 OBJ: K.3.2.3 8. ANS: A DIF: L1 REF: p. K-108 OBJ: K.3.5.1 9. ANS: C DIF: L1 REF: p. K-78 OBJ: K.3.1.2 STO: 1.1.8.A.a, 1.1.8.F, 1.1.8.F.a 10. ANS: A DIF: L3 REF: p. K-87 OBJ: K.3.2.3 11. ANS: D DIF: L1 REF: p. K-91 OBJ: K.3.3.2 12. ANS: D DIF: L2 REF: p. K-109 OBJ: K.3.5.1 13. ANS: B DIF: L2 REF: p. K-94 OBJ: K.3.3.3, 1.1.8.F.a 14. ANS: C DIF: L2 REF: p. K-82 OBJ: K.3.2.1 15. ANS: B DIF: L1 REF: p. K-105 OBJ: K.3.4.2 STO: 1.1.8.A.b, 1.2.7.A.l 16. ANS: A DIF: L1 REF: p. K-88 OBJ: K.3.3.1 17. ANS: C DIF: L2 REF: p. K-89 OBJ: K.3.3.1 18. ANS: A DIF: L1 REF: p. K-79 OBJ: K.3.1.3 19. ANS: D DIF: L2 REF: p. K-104 OBJ: K.3.4.1 20. ANS: C DIF: L2 REF: p. K-78 OBJ: K.3.1.2 STO: 1.1.8.A.a, 1.1.8.F, 1.1.8.F.a 21. ANS: D DIF: L2 REF: p. K-82 OBJ: K.3.2.1 22. ANS: A DIF: L3 REF: p. K-87 OBJ: K.3.2.3 1

23. ANS: A DIF: L1 REF: p. K-86 OBJ: K.3.2.3 24. ANS: C DIF: L3 REF: p. K-88 OBJ: K.3.3.1 25. ANS: C DIF: L3 REF: p. K-103 OBJ: K.3.4.1 26. ANS: B DIF: L2 REF: p. K-75 OBJ: K.3.1.1 27. ANS: B DIF: L3 REF: p. K-94 OBJ: K.3.3.3, 1.1.8.F.a 28. ANS: B DIF: L3 REF: p. K-89 OBJ: K.3.3.1 COMPLETION 29. ANS: models DIF: L2 REF: p. K-79 OBJ: K.3.1.3 30. ANS: right DIF: L3 REF: p. K-101 OBJ: K.3.4.1 31. ANS: conductivity DIF: L1 REF: p. K-89 OBJ: K.3.3.1 32. ANS: poor DIF: L1 REF: p. K-99 OBJ: K.3.4.1 33. ANS: chemical symbol DIF: L2 REF: p. K-83 OBJ: K.3.2.2 34. ANS: supernova DIF: L2 REF: p. K-111 OBJ: K.3.5.2 35. ANS: properties DIF: L1 REF: p. K-86 OBJ: K.3.2.3 36. ANS: atomic number DIF: L2 REF: p. K-78 OBJ: K.3.1.2 STO: 1.1.8.A.a, 1.1.8.F, 1.1.8.F.a 37. ANS: semiconductor DIF: L1 REF: p. K-105 OBJ: K.3.4.2 STO: 1.1.8.A.b, 1.2.7.A.l 38. ANS: atomic mass DIF: L2 REF: p. K-81 OBJ: K.3.2.1 2

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