1. What is the formula for the compound formed by calcium and nitrogen? D. Ca 3 N 2 (Total 1 mark)

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4 1. What is the formula for the compound formed by calcium and nitrogen? A. CaN B. Ca 2 N C. Ca 2 N 3 D. Ca 3 N 2 2. Element X is in group 2, and element Y in group 7, of the periodic table. Which ions will be present in the compound formed when X and Y react together? A. X + and Y B. X 2+ and Y C. X + and Y 2 D. X 2 and Y + 3. Which of the following increase(s) for the bonding between carbon atoms in the sequence of molecules C 2 H 6, C 2 H 4 and C 2 H 2? I. Number of bonds II. III. Length of bonds Strength of bonding A. I only B. I and III only C. III only D. I, II and III 4. Based on electronegativity values, which bond is the most polar? A. B C B. C O C. N O D. O F 4

5 5. What is the Lewis (electron dot) structure for sulfur dioxide? A. O S O B. O S O C. O S O D. O S O 6. Which substance is most soluble in water (in mol dm 3 ) at 298 K? A. CH 3 CH 3 B. CH 3 OCH 3 C. CH 3 CH 2 OH D. CH 3 CH 2 CH 2 CH 2 OH 7. According to VSEPR theory, repulsion between electron pairs in a valence shell decreases in the order A. lone pair-lone pair > lone pair-bond pair > bond pair-bond pair. B. bond pair-bond pair > lone pair-bond pair > lone pair-lone pair. C. lone pair-lone pair > bond pair-bond pair > bond pair-lone pair. D. bond pair-bond pair > lone pair-lone pair > lone pair-bond pair. 8. Which molecule is linear? A. SO 2 B. CO 2 C. H 2 S D. Cl 2 O 9. Why is the boiling point of PH 3 lower than that of NH 3? A. PH 3 is non-polar whereas NH 3 is polar. B. PH 3 is not hydrogen bonded whereas NH 3 is hydrogen bonded. C. Van der Waals forces are weaker in PH 3 than in NH 3. D. The molar mass of PH 3 is greater than that of NH 3. 5

6 10. Which molecule is non-polar? A. H 2 CO B. SO 3 C. NF 3 D. CHCl What happens when sodium and oxygen combine together? A. Each sodium atom gains one electron. B. Each sodium atom loses one electron. C. Each oxygen atom gains one electron. D. Each oxygen atom loses one electron. 12. Which statement is correct about two elements whose atoms form a covalent bond with each other? A. The elements are metals. B. The elements are non-metals. C. The elements have very low electronegativity values. D. The elements have very different electronegativity values. 13. Which substance has the lowest electrical conductivity? A. Cu(s) B. Hg(l) C. H 2 (g) D. LiOH(aq) 14. Which statement best describes the attraction present in metallic bonding? A. the attraction between nuclei and electrons B. the attraction between positive ions and electrons C. the attraction between positive ions and negative ions D. the attraction between protons and electrons 6

7 15. When the following bond types are listed in decreasing order of strength (strongest first), what is the correct order? A. covalent > hydrogen > van der Waals B. covalent > van der Waals > hydrogen C. hydrogen > covalent > van der Waals D. van der Waals > hydrogen > covalent 16. Which statement is true for most ionic compounds? A. They contain elements of similar electronegativity. B. They conduct electricity in the solid state. C. They are coloured. D. They have high melting and boiling points. 17. What is the valence shell electron pair repulsion (VSEPR) theory used to predict? A. The energy levels in an atom B. The shapes of molecules and ions C. The electronegativities of elements D. The type of bonding in compounds 18. Which fluoride is the most ionic? A. NaF B. CsF C. MgF 2 D. BaF Which substance is most similar in shape to NH 3? A. GaI 3 B. BF 3 C. FeCl 3 D. PBr 3 7

8 20. Which statement is a correct description of electron loss in this reaction? 2Al + 3S Al 2 S 3 A. Each aluminium atom loses two electrons. B. Each aluminium atom loses three electrons. C. Each sulfur atom loses two electrons. D. Each sulfur atom loses three electrons. 21. Which molecule has the smallest bond angle? A. CO 2 B. NH 3 C. CH 4 D. C 2 H In which substance is hydrogen bonding present? A. CH 4 B. CH 2 F 2 C. CH 3 CHO D. CH 3 OH 23. Which is a correct description of metallic bonding? A. Positively charged metal ions are attracted to negatively charged ions. B. Negatively charged metal ions are attracted to positively charged metal ions. C. Positively charged metal ions are attracted to delocalized electrons. D. Negatively charged metal ions are attracted to delocalized electrons. 24. What intermolecular forces are present in gaseous hydrogen? A. Hydrogen bonds B. Covalent bonds C. Dipole-dipole attractions D. Van der Waals forces 8

9 25. Which molecule is polar? A. CO 2 B. PF 3 C. CH 4 D. BF What are responsible for the high electrical conductivity of metals? A. Delocalized positive ions B. Delocalized valence electrons C. Delocalized atoms D. Delocalized negative ions 27. Which compound has the least covalent character? A. SiO 2 B. Na 2 O C. MgCl 2 D. CsF 28. When C 2 H 4, C 2 H 2 and C 2 H 6 are arranged in order of increasing C C bond length, what is the correct order? A. C 2 H 6, C 2 H 2, C 2 H 4 B. C 2 H 4, C 2 H 2, C 2 H 6 C. C 2 H 2, C 2 H 4, C 2 H 6 D. C 2 H 4, C 2 H 6, C 2 H Which compound contains both ionic and covalent bonds? A. MgCl 2 B. HCl C. H 2 CO D. NH 4 Cl 9

10 30. When the species BF 2 +, BF 3 and BF 4 are arranged in order of increasing F B F bond angle, what is the correct order? A. BF 3, BF 4, BF 2 + B. BF 4, BF 3, BF 2 + C. BF 2 +, BF 4, BF 3 D. BF 2 +, BF 3, BF Which species has a trigonal planar shape? A. CO 3 2 B. SO 3 2 C. NF 3 D. PCl When C 2 H 4, C 2 H 2 and C 2 H 6 are arranged in order of increasing C C bond length, what is the correct order? A. C 2 H 6, C 2 H 2, C 2 H 4 B. C 2 H 4, C 2 H 2, C 2 H 6 C. C 2 H 2, C 2 H 4, C 2 H 6 D. C 2 H 4, C 2 H 6, C 2 H What is the formula for an ionic compound formed between an element, X, from group 2 and an element, Y, from group 6? A. XY B. X 2 Y C. XY 2 D. X 2 Y 6 10

11 34. In the molecules N 2 H 4, N 2 H 2, and N 2, the nitrogen atoms are linked by single, double and triple bonds, respectively. When these molecules are arranged in increasing order of the lengths of their nitrogen to nitrogen bonds (shortest bond first) which order is correct? A. N 2 H 4, N 2, N 2 H 2 B. N 2 H 4, N 2 H 2, N 2 C. N 2 H 2, N 2, N 2 H 4 D. N 2, N 2 H 2, N 2 H The compounds listed have very similar molar masses. Which has the strongest intermolecular forces? A. CH 3 CHO B. CH 3 CH 2 OH C. CH 3 CH 2 F D. CH 3 CH 2 CH What is the shape of the CO 2 3 ion and the approximate O C O bond angle? A. Linear, 180 B. Trigonal planar, 90 C. Trigonal planar, 120 D. Pyramidal, Which combination of H vaporization and boiling point is the result of strong intermolecular forces? H vaporization Boiling Point A. large high B. large low C. small low D. small high 11

12 38. What is the formula of the compound formed when aluminium reacts with oxygen? A. Al 3 O 2 B. Al 2 O 3 C. AlO 2 D. AlO Which statement is true for compounds containing only covalent bonds? A. They are held together by electrostatic forces of attraction between oppositely charged ions. B. They are made up of metal elements only. C. They are made up of a metal from the far left of the periodic table and a non-metal from the far right of the periodic table. D. They are made up of non-metal elements only. 40. How many electrons are used in the carbon-carbon bond in C 2 H 2? A. 4 B. 6 C. 10 D Which compound has the highest boiling point? A. CH 3 CH 2 CH 3 B. CH 3 CH 2 OH C. CH 3 OCH 3 D. CH 3 CHO 12

13 42. What type of solid materials are typically hard, have high melting points and poor electrical conductivities? A. I and II only B. I and III only C. II and III only I. Ionic II. Metallic III. Covalent-network D. I, II and III 43. The boiling points of the hydrides of the group 6 elements are shown below Boiling point / K H O H S H Se H Te (i) Explain the trend in boiling points from H 2 S to H 2 Te. (2) Explain why the boiling point of water is higher than would be expected from the group trend. 13

(2) (Total 4 marks) 44. (i) State the shape of the electron distribution around the oxygen atom in the water molecule and state the shape of the molecule.

14 (2) (Total 4 marks) 44. (i) State the shape of the electron distribution around the oxygen atom in the water molecule and state the shape of the molecule. (2) State and explain the value of the HOH bond angle..... (2) (Total 4 marks) 45. Explain why the bonds in silicon tetrachloride, SiCl 4, are polar, but the molecule is not. (Total 2 marks) 46. The diagrams below represent the structures of iodine, sodium and sodium iodide. A B C (a) (i) Identify which of the structures (A, B and C) correspond to iodine, sodium and sodium iodide. 14

15 (1) State the type of bonding in each structure. (3) (b) (i) Sodium and sodium iodide can both conduct electricity when molten, but only sodium can conduct electricity when solid. Explain this difference in conductivity in terms of the structures of sodium and sodium iodide. (4) Explain the high volatility of iodine compared to sodium and sodium iodide. (2) (Total 10 marks) 47. The boiling points of the hydrides of group 6 elements increase in the order H 2 S < H 2 Se < H 2 Te < H 2 O. Explain the trend in the boiling points in terms of bonding (Total 3 marks) 15

16 48. (i) Draw Lewis (electron dot) structures for CO 2 and H 2 S showing all valence electrons. (2) State the shape of each molecule and explain your answer in terms of VSEPR theory. CO H 2 S (4) (iii) State and explain whether each molecule is polar or non-polar (2) (Total 8 marks) 49. Identify the strongest type of intermolecular force in each of the following compounds. CH 3 Cl... CH 4... CH 3 OH... (Total 3 marks) 16

17 50. (i) List the following substances in order of increasing boiling point (lowest first). CH 3 CHO C 2 H 6 CH 3 COOH C 2 H 5 OH (2) State whether each compound is polar or non-polar, and explain the order of boiling points in (i). (8) (Total 10 marks) 51. (a) An important compound of nitrogen is ammonia, NH 3. The chemistry of ammonia is influenced by its polarity and its ability to form hydrogen bonds. Polarity can be explained in terms of electronegativity. (i) Explain the term electronegativity. (2) Draw a diagram to show hydrogen bonding between two molecules of NH 3. The diagram should include any dipoles and/or lone pairs of electrons (3) 17

18 (iii) State the H N H bond angle in an ammonia molecule. (1) (iv) Explain why the ammonia molecule is polar. (1) (b) Ammonia reacts with hydrogen ions forming ammonium ions, NH 4 +. (i) State the H N H bond angle in an ammonium ion. (1) Explain why the H N H bond angle of NH 3 is different from the H N H bond angle of NH 4 + ; referring to both species in your answer. (3) (Total 11 marks) 52. Three scientists shared the Chemistry Nobel Prize in 1996 for the discovery of fullerenes. Fullerenes, like diamond and graphite, are allotropes of the element carbon. (i) State the structures of and the bonding in diamond and graphite. (2) Compare and explain the hardness and electrical conductivity of diamond and graphite. 18

19 (4) (iii) Predict and explain how the hardness and electrical conductivity of C 60 fullerene would compare with that of diamond and graphite. (4) (Total 10 marks) 53. State the type of bonding in the compound SiCl 4. Draw the Lewis structure for this compound. 54. Outline the principles of the valence shell electron pair repulsion (VSEPR) theory. (Total 3 marks) (Total 3 marks) 19

20 55. (i) Use the VSEPR theory to predict and explain the shape and the bond angle of each of the molecules SCl 2 and C 2 Cl 2 (6) Deduce whether or not each molecule is polar, giving a reason for your answer. (3) (Total 9 marks) 56. Draw a Lewis structure of a water molecule, name the shape of the molecule and state and explain why the bond angle is less than the bond angle in a tetrahedral molecule such as methane. (Total 4 marks) 57. Predict and explain the order of the melting point for propanol, butane and propanone with reference to their intermolecular forces. (Total 4 marks) 58. The elements sodium, aluminium, silicon, phosphorus and sulfur are in period 3 of the periodic table. Describe the metallic bonding present in aluminium and explain why aluminium has a higher melting point than sodium

21 (Total 3 marks) 59. Draw the Lewis structure of NCl 3. Predict, giving a reason, the Cl N Cl bond angle in NCl 3. (Total 3 marks) 60. Arrange the following in decreasing order of bond angle (largest one first), and explain your reasoning. NH 2, NH 3, NH 4 + (Total 5 marks) 61. (i) Outline the principles of the valence shell electron pair repulsion (VSEPR) theory. (3) (iii) Use the VSEPR theory to deduce the shape of H 3 O + and C 2 H 4. For each species, draw the Lewis structure, name the shape, and state the value of the bond angle(s). Predict and explain whether each species is polar. (6) (2) (iv) Using Table 7 of the Data Booklet, predict and explain which of the bonds O-H, O-N or N-H would be most polar. (2) (Total 13 marks) 62. Predict and explain which of the following compounds consist of molecules: NaCl, BF 3, CaCl 2, N 2 O, P 4 O 6, FeS and CBr 4. (Total 2 marks) 63. Diamond, graphite and C 60 fullerene are three allotropes of carbon. (i) Describe the structure of each allotrope. Compare the bonding in diamond and graphite. (3) (2) (Total 5 marks) 64. State two physical properties associated with metals and explain them at the atomic level. (Total 4 marks) 65. (a) Draw the Lewis structure of methanoic acid, HCOOH. (1) 21

22 (b) (c) In methanoic acid, predict the bond angle around the (i) carbon atom.... oxygen atom bonded to the hydrogen atom.... State and explain the relationship between the length and strength of the bonds between the carbon atom and the two oxygen atoms in methanoic acid (2)... (3) (Total 6 marks) ANSWERS 1. D 2. B 3. B* * For Spanish question paper both B and C can be accepted 4. B 5. D 6. C 7. A 8. B 9. B 10. B 11. B 12. B 13. C 14. B 22

23 15. A 16. D 17. B 18. B 19. D 20. B 21. B 22. D 23. C 24. D 25. B 26. B 27. D 28. C 29. D 30. B 31. A 32. C 33. A 34. D 35. B 36. C 37. A 38. B 39. D 23

24 40. A 41. B 42. B 43. (i) as molecules become larger/heavier/have higher M r values/ number of electrons increases; van der Waals /London/ dispersion forces increase; 2 hydrogen bonding between molecules in H 2 O; this bonding is stronger (than van der Waals forces); 2 Must be an implied comparison with (i) [4] 44. (i) tetrahedral (accept correct 3-D diagram); bent/v-shape/angular (accept suitable diagram); (accept ); lone pairs repel each other more than bonding pairs; 2 Do not accept repulsion of atoms. 45. bonds are polar as Cl more electronegative than Si; Allow electronegativities are different molecule is symmetrical, hence polar effects cancel out/owtte; (a) (i) A sodium iodide, B sodium, C iodine (three correct ); 1 Accept correct formulas. [4] [2] A ionic bonding; B metallic bonding; C van der Waals forces (and covalent bonding); 3 (b) (i) (for Na) (lattice of) positive ions/atoms; delocalized/free electrons/sea of electrons; (for NaI) oppositely charged ions/positive and negative ions; free to move (only) in molten state; 4 forces between I 2 molecules are weak; ionic/metallic bonding strong(er); 2 [10] 47. for H 2 S, H 2 Se and H 2 Te, as size/mass/m r increases, van der Waals forces increase (and b pt. increases); H 2 O experiences H bonding; H bonding stronger than van der Waals /explanation of H bonding; 3 [3] 24

25 48. (i) O C O ; 2 H S H ; Accept dots, crosses, a combination of dots and crosses or a line to represent a pair of electrons. CO 2 is linear; two charge centres or bonds and no lone pairs (around C); H 2 S is bent/v-shaped/angular; two bond pairs, two lone pairs (around S); 4 (iii) CO 2 is non-polar, H 2 S is polar; bond polarities cancel CO 2 but not in H 2 S; CH 3 Cl dipole-dipole attractions; CH 4 van der Waals /dispersion/london forces; CH 3 OH hydrogen bond; 3 [8] [3] 50. (i) C 2 H 6 < CH 3 CHO, < C 2 H 5 OH < CH 3 COOH; 2 Award [2] if all correct, if first and last correct. C 2 H 6 non polar; CH 3 CHO polar; C 2 H 5 OH polar; CH 3 COOH polar; Award [2] for all four correct, for 3 or 2 correct. boiling point depends on intermolecular forces; least energy required for van der Waals forces/maximum energy for hydrogen bonding; C 2 H 6 van der Waals forces only; CH 3 CHO dipole-dipole; C 2 H 5 OH and CH 3 COOH hydrogen bonding; hydrogen bonding is stronger in CH 3 COOH/greater polarity/ greater molecular mass/greater van der Waals forces; 8 [10] 51. (a) (i) (relative) measure of an atom s attraction for electrons; in a bond; 2 25

26 xx N + H hydrogen bonding + H H + xx N + H + H + H Suitable diagram indicating dipoles; lone pairs of electrons; hydrogen bonding; 3 (iii) 107 ; 1 Accept answer in range 107 to 109. (iv) molecule is asymmetrical/owtte; 1 (b) (i) ; 1 NH 4 + has four bonding pairs (around central atom so is a regular tetrahedron); NH 3 has three bonding pairs (of electrons) and one non-bonding pair; non-bonding pairs (of electrons) exert a greater repulsive force; 3 Accept suitable diagrams. [11] 52. (i) Diamond giant molecular/macromolecular/3-d covalent bonds only; Graphite covalent bonds and van der Waals forces layer structure; Award for both shape and bonding in each case. 2 Accept suitable diagrams. Diamond poor/non-conductor no delocalized electrons hard rigid structure Graphite good conductor delocalized electrons soft layers can slide (iii) Award per row. 4 softer than diamond/harder than graphite; as C 60 molecules can move over each other; conducts better than diamond/worse than graphite; as C 60 has less delocalisation (of the unpaired bonding electrons) than graphite; 4 [10] 26

27 53. Si Cl bonds are covalent; 3 Cl Cl Si Cl Cl Accept lines for electron pairs. Award for covalent bonds and for lone pairs. 54. find number of electron pairs/charge centres in (valence shell of) central atom; electron pairs/charge centres (in valence shell) of central atom repel each other; to positions of minimum energy/repulsion/maximum stability; pairs forming a double or triple bond act as a single bond; non-bonding pairs repel more than bonding pairs/owtte; Do not accept repulsion between bonds or atoms. Award each for any three points. 55. (i) SCl 2 two bonding pairs, two non-bonding pairs; angular/bent/non-linear/v-shaped; Both these marks can be scored from a diagram. 90 < angle < 107 ; C 2 Cl 2 two charge centres around each C; linear; Both these marks can be scored from a diagram. 3 max [3] [3] angle = 180 ; 6 SCl 2 is polar; C 2 Cl 2 is non-polar; 3 No net dipole movement for C 2 Cl 2 but angular SCl 2 has a resultant dipole / OWTTE; Mark can be scored from a diagram. Allow ECF based on the answers given to (i). [9] 27

28 56. H H O H O H Allow a combination of dots, crosses or lines. bent/v shaped/angular ; Accept answers in range 104 to 106. repulsion of the two non-bonding pairs of electrons forces bond angle to be smaller/non-bonding pairs repel more than bonding pairs; 4 [4] 57. butane < propanone < propanol; butane has van der Waals forces; Accept vdw, dispersion or London forces or attractions between temporary dipoles. propanone has dipole-dipole attractions; propanol has (the stronger) H-bonding; delocalized electrons; (attracted) to positive ions; more delocalized/mobile/outer shell electrons/higher ionic charge; 3 [4] [3] 59. Cl Cl N Cl All electrons must be shown. Accept molecular structures using lines to represent bonding and lone electron pairs. bond angle: greater repulsion between lone pair and bonding pairs/owtte; 3 NOT between electron pairs and atoms. Award [1 max] if lone pair missed on nitrogen, ECF for bond angle of 120. [3] 60. NH + 4 > NH 3 > NH 2 ; NH + 4 has four bonded electron pairs (and no lone electron pairs); 28

29 NH 3 has three bonded electron pairs and one electron lone pair; NH 2 has two bonded electron pairs and two electron lone pairs; Accept correct Lewis structures with lone electron pairs clearly shown. lone pair-lone pair > lone pair-bonded pair > bonded pair-bonded pair/ lone pairs of electrons repel more than bonding pairs of electrons/owtte; 5 Do not accept repulsion between atoms. [5] 61. (i) Find number of electron pairs/charge centres in (valence shell of) central atom; electron pairs/charge centres (in valence shell) of central atom repel each other; Any one of the following: to positions of minimum energy/repulsion/maximum stability; pairs forming a double or triple bond act as a single bond; non-bonding pairs repel more than bonding pairs/owtte; 3 max Do not accept repulsion between bonds or atoms. 6 Lewis (electron-dot) Species Shape Bond angle(s) structure H 3 O + O + H Trigonal/triangular Allow values in the ; H H pyramidal; range 106 to ; C 2 H 4 H H Trigonal/triangular Allow values of ; H H planar; approximately 120 ; Accept crosses and dots for electrons in Lewis structures also. As the Lewis structures were asked for, and not 3D representations, do not penalize incorrectly drawn geometries. Do not accept structure of hydronium cation without lone pair on oxygen. No penalty for missing charge. (iii) H 3 O + : is polar and explanation either using a diagram or in words, involving the net dipole moment; e.g. the three individual O-H bond dipole moments add as vectors to give a net dipole moment. C 2 H 4 : is non-polar and explanation either using a diagram or in words, involving no net dipole moment; 2 e.g. the vector sum of the individual bond dipole moments is zero. For simple answers such as bond polarities do not cancel for H 3 O + and do cancel for C 2 H 4, Award, only for the last two marking points. (iv) O-H is most polar; O-H has greatest difference between electronegativities/calculation showing values of 1.4, 0.5 and 0.9 respectively; 2 29

30 [13] 62. BF 3, N 2 O, P 4 O 6 and CBr 4 ; Non-metals only/small difference in electronegativity values of the elements; 2 [2] 63. (i) 3 Allotrope Diamond Graphite C 60 fullerene Structure 3D array/network involving tetrahedral carbons/each carbon atom joined to four others; layer structure involving trigonal (triangular) planar carbons/with each carbon atom joined to three others/with hexagonal (six-membered) rings of carbon atoms; truncated icosahedrons; Accept carbon atoms form a ball with 32 faces, of which 12 are pentagons and 20 are hexagons, exactly like a soccer ball. Do not accept soccer ball alone. Diamond: covalent bonds (only); Graphite: covalent bonds and the separated layers held together by (weak) London/van der Waals /dispersion forces; 2 [5] 64. Electrical conductivity: Bonding electrons are delocalised; Current flow occurs without displacement of atoms within the metal/ able to flow within the metal; Malleability: Can be hammered into thin sheets; atoms capable of slipping with respect to one another; 4 [4] 65. (a) O H C O H 1 No mark without lone electron pairs. Correct shape not necessary. Do not award mark if dots/crosses and bond lines are shown. Accept lone pairs represented as straight lines. (b) O C O = 120 /H C O = 120 ; C O H = 109 /<109 ; 2 No mark for Accept answer in range

31 (c) length: C = O < C O; strength: C = O > C O; greater number of electrons between nuclei pull atoms together and require greater energy to break; Or double bonds are shorter/single bonds are longer; double bonds are stronger/single bonds are weaker; 3 Accept stronger attraction between nuclei and (bonding) electrons. [6] 31

1. What is the formula for the compound formed by calcium and nitrogen?

IB Chem 1 Name Topic 4 Bonding - Sample Test Problems 1. What is the formula for the compound formed by calcium and nitrogen? A. CaN B. Ca 2 N C. Ca 2 N 3 D. Ca 3 N 2 2. Element X is in group 2, and element