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92 15 F A-NET ( ) (1) 24Cr 29Cu F F F 24Cr 29Cu 1. [Ar] 4s2 3d4 [Ar] 4s1 3d10 2. [Ar] 4s2 3d4 [Ar] 4s2 3d9 3. [Kr] 5s1 4d5 [Kr] 5s1 4d10 4. [Ar] 4s1 3d5 [Ar] 4s1 3d10 (2) F 60 2 F F F F 27 F ˈ F 1. 26 28 2. 33 33 3. 31 35 4. 32 33 (3) (Lattice energy) 1. NaCl 2. MgO 3. CaCl2 4.AlF3 (4) 6 bonding electrons 1. C2H4 2. CO2 3. H2S 4. NCl3 (5) F F F 1. C6H5NH2 2. C6H5CO2Na 3. CH3CH (OH) CH3 4. CH3CH (NH2) CO2H (6) ˈ lattice energy XY 1. X (s) + Y(s) → XY(s) 2. X (g) + Y(g) → XY (s) 3. + )s(X + − )s(Y → XY (s) 4. + )g(X + − )g(Y → XY (s) (7) F F F (nm) 1. A -1 0.181 2. B +1 0.169 3. C +2 0.065 4 D +2 0.135 (8) 10 m3 ˈ 50 kPa 30 m3 ˈ 100 kPa F F F ˈ F 1. 75 kPa 2. 87.5 kPa 3. 125 kPa 4. 150 kPa (9) F ˈ (the enthalpy change of formation of a compound) 1. 2H2(g) + O2(g) → 2H2O(g) 2. Na(s) + Cl(g) → NaCl(s) 3. H2O(l) + NaCl(s) → NaCl (aq) 4. K(s) + Mn (s) + 2O2 (g) → KMnO4 (s)
93 (10) ∆H F (1) .CO(g) + 2 1 O2(g) → CO2(g) ∆H1 = -283 kJ.mol-1 (2) .H2(g) + 2 1 O2(g) → H2O(l) ∆H2 = -286 kJ.mol-1 (3) .CH3OH(l) + 2 3 O2(g) → CO2(g) 2H2O(l) ∆H3 = -715 kJ.mol-1 ∆H CO(g) + 2H2(g) → CH3OH (l) 1. -146 kJ.mol-1 2. -140 kJ.mol-1 3. +140 kJ.mol-1 4. +146 kJ.mol-1 (11) F F ˈ CaCl2 (aq) + 2NaOH(aq) → 2NaCl (aq) + Cd (OH)2(s) NaOH F F 0.10 F 9.0 cm3 CdCl2 F F 1.00 F 500 cm3 F Cd (OH)2 ( Cd = 112.4, O = 16, H = 1) 1. 10002 146.40.109.0 × ×× 2. 509 146.40.109.02 ××× 3. 1000 146.40.109.0 ×× 4. 1000 146.40.109.02 ××× (12) F ˈ F 1. CaCO3 (s) + 2HCl(ag) → CaCl2 (aq) + CO2 (g) + H2O (l) 2. CuS(s) + O2 (g) → Cu(s) + SO2 (g) 3. Hg(NO3)2(aq) + H2S (g) → HgS(s) + 2HNO3 (aq) 4. 2NaOH(aq) + H2SO4(aq) → Na2SO4 (aq) + 2H2O(l) (13) I, II, III IV F
94 F F F I II III IV 1 F 2 F 3 F 4 F (14) F ˈ F F 1 4 F F ˈ 1. 2, 3 2. 2, 7 3. 2, 8, 2 4. 2, 8, 8, 1 (15) F 4 F F 500 cm3 ˈ F 1. A 2. B 3. C 4. D (16) F F 25o C (298 K) 101.3 kPa 1. 1.0 2. 1.0 3. 1.0 4. 1.0 (17) thorium chloride ˈ ThCl4 ammonium chromite ˈ NH4CrO2 F ˈ thorium chromite 1. ThCrO2 2. Th2CrO2 3. Th (CrO2)4 4. Th (CrO2)2 (18) 69 Ga 68.9 71 Ga 70.9 F 69.7 F 69 Ga ˈ F 1. 9.689.70 9.687.69 − − = 0.40 2. 9.689.70 7.699.70 − − = 0.60 3. 7.699.70 9.68 + = 0.49 4. 9.707.699.68 9.68 ++ = 0.33 (19) papaverine F impotence F F 70.75% , 6.25% , 4.13% 18.87% F papaverine 339.2 papaverine F 1. C20H21NO4 2. C20H11NO2 3. C20H23N2O3 4. C17H30NO5 I1 = 744 , I2 = 1457 , I3 = 7739 , I4 = 10547
95 (20) F ˈ F 2, 2-dimethyl-3-elthyl hexane 1. 3 23 3223 3 CH CHCH CHCHCHCHCCH CH −−−−− 2. 33 323 3 CHCH CHCHCCHCH CH −−−− 3. 3 32 323 3 CH CHCH CHCHCCHCH CH −−−− 4. CH3 CH2 CH2 CH2 CH CH2 CH2 CH2 CH3 CH3 (21) E F ˈ E2O3 F E ˈ F 1. Mg 2. Al 3. Si 4. P (22) F 1. −216 8 O 2. F19 9 3. Na23 11 4. +327 13 Al (23) F + 2Ag+ + 2Ag(s) + 2H+ OH OH O O
96 1. 2. Ag+ 3. 4. Ag (24) F F 0.100 F 1.00 F F 0.100 F 1.00 F F ˈ F 1. 0.0500 mol L-1 2. 0.100 mol L-1 3. 0.150 mol L-1 4. 0.200 mol L-1 (25) F F 71.0 F F ( Cl = 35.5) 1. 24.5 273 K 101.3 kPa 2. 6.02 x 1023 3. 2 4. 2 (26) 5.0 F F 1.00 F 20 cm3 F F F ( Zn = 65) 1. 0.00 g 2. 0.65 g 3. 3.70 g 4. 4.35 g (27) F H OH O H C C C H H OH ˅ ˈ F F 1. CH2O C3H6O3 2. CH2O (CH2O)n 3. C2H4O2(OH) C3H4O3 4. (CH2O)n CH2O (28) F 0.25 F ˈ F 1. 0.50 2. 0.25 3. 3.01 x 1023 4. 1.51 x 1023 (29) F (allotropes) 1. 14 C 12 C 2. 1 2- 3. Fe2+ Fe3+ 4. O2 O3 O O OH OH
97 (30) F :- F 5.85 F F ˈ 250 F F F F F ( Na = 23, Cl = 35.5) 1. 1000 250 58.5 5.85 2. 250 1000 58.5 5.85 3. 58.5 5.85 1000 250 4. 1000 250 5.85 58.5 (31) ʽ F 1. Cu + H2SO4 → CuSO4 + SO2 + H2O 2. Cu + 2H2SO4 → CuSO4 + SO2 + 2H2O 3. Cu + 2H2SO4 → Cu (SO4)2 + SO2 + 2H2O 4. 2Cu + H2SO4 → Cu2SO4 + SO2 + H2O (32) F F F F 32800 Jg-1 F F kJ mol-1 F F F ( C=12) 1. 394000 2. 394 3. 32.8 4. 2.73 (33) pH = 3.0 F F F F 1. 3.0 mol L-1 2. 1.0 x 10-3 mol L-1 3. 1.0 x 10-11 mol L-1 4. 3.0 x 10-14 mol L-1 (34) F 1000 F 50.0 65o C F ˈ (kPa) 1. 35.69 kPa 2. 1408.6 kPa 3. 2000 kPa 4. 2005.9 kPa (35) F ˈ (N2H4) F N2O4 F F ∆ o fH (kJmol-1 ) H2O (l) -285 H2O (g) -242 N2H4(l) +51 N2H4(g) +95 N2O4 (l) -20 N2O4(g) +10 F ∆H0 F 1. +968 kJ 2. -968 kJ 3. +1050 kJ 4. -1050 kJ 2N2H4(l) + N2O4(l) → 3 N2(g) + 4H2O (g)
98 36. F (kJ mol-1 ) 298 K C C 348 C = C 614 C H 413 H H 436 ∆ Ho 1. +124 kJ 2. -124 kJ 3. 2702 kJ 4. 2826 kJ F F F F 37 39 F F F F F F kJ mol-1 F Ca2+ (g) + 2Cl- (g) +1743 X -2249 Ca(g) 2Cl(g) Y +192 +242 Ca(s) + Cl2(g) CaCl2(s) -798 (37) Y 1. 2. 3. 4. (38) CaCl2 (s) F 1. Ca(g) + 2 1 Cl2 (g) → CaCl(s) ∆H = -798 kJ 2. Ca(s) + Cl2(g) → CaCl2(s) ∆H = -2249 kJ 3. Ca(s) + Cl2(g) → CaCl2(s) ∆H = -798 kJ 4. Ca2+ (g) + 2Cl- (g) → CaCl2(s) ∆H = -2249 kJ (39) F F (Hess s law) ∆H X F kJ mol-1 1. -726 kJ mol-1 2. -363 kJ mol-1 3. +726 kJ mol-1 4. +242 kJ mol-1 (40) F ˈ F F (AgCl) Ksp = 2.0 x 10-10 F F (Ag2CO3) Ksp = 8.0 x 10-12 C2H4 (g) + H2 (g) → C2H6 (g)
99 F F F 1. AgCl F F Ag2CO3 2. Ag2CO3 F F AgCl 3. AgCl F F Ag2CO3 4. AgCl Ag2CO3 F F F (41) F F F 40 F F F 0.10 F AgCl F F 1. 2 x 10-10 mol dm-3 2. 2 x 10-9 mol dm-3 3. 1.4 x 10-5 mol dm-3 4. 1.26 x 10-4 mol dm-3 (42) F ˈ H2(g) + CO2 (g) H2O(g) + CO(g) F (K) F 0.60 900 K F 2.0 F 2.0 F F F 1.0 F F F F F F 900 K ˈ F 1. 0.60 mol dm-3 2. 0.87 mol dm-3 3. 1.20 mol dm-3 4. 1.74 mol dm-3 (43) F ˈ F 0.287 ʽ F F F F F Fe2+ F F F F F F 0.103 F F F F 9.84 cm3 ˈ F F F ( H = 1, O = 16, Fe = 55.85, Mn = 55) 1. 0.28 2. 1.40 3. 14.0 4. 28.3 (44) 4 F F ˈ F 1. HA 2. HB 3. HC 4. HD (45) ˈ F F 1. 24 2. 25 3. 27 4. 76 Fe2+ + MnO4 - + 8H+ → Fe3+ + Mn2+ + 4H2O
100 (46) E E F 1. 1 F 2. F ECl4 3. F F 4. F F F F F F F F F 47-49 F F F 1 ˈ (47) 5 (COMPOUND 5) 1. 1 butanol 2. butanoic acid 3. 1 bromobutane 4. 1 butene (48) F 2 3 1. ʾ 2. F 3. F 4. (49) F ˈ REACTION III 1. CH3CH2CH2CO2CH2CH2CH3 CH3CH2CH2COOH + CH2CH2CH2CH2OH 2. CH2CH2CH2CH2OH CH3 CH2 CH = CH2 + H2O 3. CH3CH2CH2COOH + HBr → CH3CH2CH2COOH2 + + Br- 4. CH3CH2CH2CH2OH + HBr → CH3CH2CH2CH2Br + H2O 2 , 8 , 4 H2SO4 Heat H2O H+
101 (50) ˈ F 1. 20 2. 40 3. 60 4. 80 (51) ˈ F ˈ C6H5COOH C6H5COO- + H+ pH F F 0.100 F 20.0 cm3 F F F 0.200 F C F F F cm3 1. 0.002 2. 0.01 3. 10 4. 100 (52) F F (white powder) F F ˈ F F F F F 1. BaCl2, SrCl2, RbCl, CsCl 2. MgCl2 , CaCl2, LiCl, RbCl 3. MgCl2, BaCl2, RbCl 4. NaCl, MgCl2, BaCl2
102 (53) F F F F F F F F F F F F F F ˈ F F F 1. ˈ F F F 2. ˈ 3. F 4. ˈ F F (54) ˄ ˈ , F F ˈ F F F ˈ F ˂ F F F F . ˈ ˄ . ˄ ˈ Al (OH)3 . F F ˈ F . F ˂ F F F 1. F 2. F 3. , F 4. , , Al (s) | Al3+ (aq) ,OH- (aq) | O2(g) (over graphite electrode) F F ˈ F (salt bridge)
103 (55) F F F F F F 1. , 2. , 3. , 4. , , (56) X + Y→ XY F ˈ F 1. I 2. II 3. III 4. IV (57) F 46 F X Y ˈ F XY ˈ F XY F X Y F 1. I 2. II 3. III 4. IV . A A H2 . A F F F CO , F F CH3OH . F F F . F F F F F F F
104 (58) F (Orange juice) ˈ F 20 (mL) C F C ( H = 1, C = 12, O = 16) O H OH O = C C C H C = C CH2OH HO OH 1. 4.6 × 10-4 mol 2. 4.6 × 10-5 mol 3. 8.1 × 10-4 mol 4. 8.1 × 10-5 mol (59) F F H O HO CH2 C C NH2 OH (Tyrosine : Tyr) H O H C C NH2 OH (Glycine : Gly)
105 F ˈ F Tyr Gly O O 1. NH2 CH2 C NH CH C CH2 OH O OH O O 2. NH2 CH2 C O O CH2 CH - C NH2 OH O 3. HO O CH2 CH2 CH CH NH O C CH2 MH2 COOH O 4. HO O CH2 CH C O NH2 NH CH2 C OH (60) F ˈ F F I II F F III IV F F F I II III IV 1 2 F 3 4 F F ʽ F (PVC) I III IV II
106 15 F A-NET ( ) F 1 F 4 F 2 F 3 = 2 AA 21 + = 60 A1 + A2 = 120 p1 + n1 + p2 + n2 = 120 27 + n1 + 27 + n2 = 120 ∴ n1 + n2 = 66 F F F F 3 F 4 F 4 F 4 H H C = C H H 12 bonding electrons O = C = O 4 bonding electrons 4 bonding electrons 6 bonding electrons F 5 F 1 C6H5NH2 ˈ F F F 6 F 4 F F F F 7 F 3 (∆Hhyd.) F F 8 F 2 = 10 + 30 = 40 m3 P1 = 50 40 10 × = 12.5 kPa P2 = 100 40 30 × = 75 kPa ∴ = P1 + P2 = 12.5 + 75 = 87.5 kPa F 9 F 4 ∆Hf F 1 25o C 1 atm Cl N Cl Cl S H H NH2
107 F 10 F 2 (1) .CO(g) + 2 1 O2(g) → CO2(g) ∆H1 = -283 kJ.mol-1 (2) x 2 2H2(g) + O2(g) → 2H2O(l) ∆H2 = -572 kJ.mol-1 (3) .CO2(g) + 2H2O(l) → CH3OH(l) + 2 3 O2(g) ∆H3 = +715 kJ.mol-1 (1) + (2) + (3) CO(g) + 2H2(g) → CH3OH (l) ∆H = -283 572 + 715 kJ.mol-1 = -140 kJ.mol-1 11. F 1 mol Cd (OH)2 = 2 1 mol NaOH 146.4 x = 1000 9x0.10 x 2 1 ∴ F Cd (OH)2 = 2x1000 46.49.0x0.10x1 12. 2 +2 -2 0 +4 CuS (s) + O2(g) Cu (s) + SO2(g) F F ˈ F 13. F 1 I ˈ F II ˈ F ˈ III ˈ IV ˈ F 14. F 3 F F I2 I3 F F 2 15. F 3 F pH F F F pH F (C6H5COOH) ˈ F F 16. F 2 ˈ F ˈ (monatomic molecule) 1 F F 17. F 3 Th4+ + CrO2 ˂ ˈ F Th (CrO2)4
108 18. F 2 F 69 Ga = 9.689.70 7.699.70 − − = 0.60 19. F 1 C20H21NO4 = (12x20)+(1x21)+(1x14)+(4x16) = 339 F F F 339.2 20. F 4 F F F F CH3 CH3 C CH CH2 CH2 CH3 CH3 CH2CH3 2,2- dimethyl 3 ethyl hexane ˈ F F 4 21. F 2 E ˈ Al F Al2O3 E2O3 F 22. F 2 1. −216 8 O = 8+2 = 10 2. F19 9 = 9 3. Na23 11 = 11 4. +327 13 Al = 13 3 = 10 23. F 2 Ag+ + e- Ag 24. F 3 KNO3 = 0.100 x 1 = 0.100 mol ∴ − 3NO = 0.100 mol Ca(NO3)2 = 0.100 x 1 = 0.100 mol ∴ − 3NO = 2 x 0.100 = 0.200 mol [ ]− 3NO = 1 mol.L0.150 2 0.300 2 0.2000.100 − == + 25. F 3 1 mol Cl2 = 2 mol Cl = 2 x 6.02 x 1023 = 22.4 dm3 at STP = 2 x 35.5 g = 71 g 26. F 4 Zn + 2HCl ZnCl2 + H2 mol Zn = 2 1 mol HCl 1000 20x1 x 2 1 65 x = ∴ x = 0.65 g Zn = 5.00 0.65 g = 4.35 g 27. F 1 C3H6O3 ˈ F F CH2O
109 28. F 3 1 mol CaCl2 F = 2 mol Cl = 2 x 6.02 x 1023 0.25 mol CaCl2 F = 0.25x2x6.02x1023 = 3.01 x 1023 29. F 4 O2 O3 ˈ 30. F 1 [NaCl] = ˈ NaCl = 1000 250 58.5 5.85 F 31. 2 ˈ F F F F Cu + 2H2SO4 CuSO4 + SO2 + 2H2O 32. F 20 F F F F kJ, mol-1 = 1 kJ.mol 1000 32800x12 − = 393.6 kJ.mol-1 = 394 kJ.mol-1 ( ) 33. F 3 pH = 3 ∴ [H3O+ ] = 10-pH = 10-3 mol.dm-3 [OH- ] = 3 14 10 10 − − = 1.0 x 10-11 mol.dm-3 mol.L-1 34. F 4 PV = nRT = RT M g . = kPax2005.9 28.02x50 x3381000x8.134 35. F 4 ∆H0 = ∑∆ 0 fH (products) - ∑∆ 0 fH (reactants) = [4(-242) + (3x0) [(2x51)+(-20)] kJ = -1050kJ 36. F 2 ( ) = (1x614) + (4x413) + (1x436) = 2702 kJ F ( ) = (1x348) + (6x413) = 2826 kJ ∆H0 = + 2702 2826 = -124 kJ
110 37. F 1 ˈ F 38. F 3 CaCl2 (s) Ca (s) Cl2(g) 39. F 2 (2x+2249)-(192+242+1743) = 798 2x = -726 ∴ x = - 363 kJ. mol-1 40. F 2 Ksp AgCl = [Ag+ ]2 [Cl- ] 2.0 x 10-10 = x2 ∴ x = 1.414 x 10-5 mol.dm-3 Ksp Ag2CO3 = [Ag+ ] [CO3 2- ] 8x10-12 = x2 .x = x3 ∴ x = 2 x10-4 mol.dm-3 Ag2 CO3 F F AgCl 41. F 2 ksp = [Ag+ ] [Cl- ] 2x10-10 = (x) (0.10) ∴ k = 1.0 10x2 10− = 2x10-9 mol.dm-3 42. F 2 K = ][CO][H [CO]0][H 22 2 0.60 = 2 2 )x2( x − ∴ x = 0.87 mol.dm-3 43. F 2 5Fe2+ + MnO4 + 8H+ 5Fe2+ +Mn2+ + 4H2O mol MnO4 = x0.103 1000 9.84 = 1.01 x 10-3 mol mol Fe2+ = 5 x 1.01 x 10-3 x 55.85 = 0.283 g % Carbon = 1.40x100 0.287 0.2830.287 = − 44. F 2 HB H+ F ˈ F 45. F 1 F peak F 24 46. F 2 E ˈ F 4A 3 F F ˈ E4+ + Cl- = ECl4 47. F 4 F 1 butyl butanoate 2 1 butanol 3 butanoic acid 4 1 bromobutane 5 1 butene 48. F 3 F F F F 49. F 4 2 ˈ F (ROH) HBr F RBr + H2O 50. F 4 F F 800 C
111 51. F 3 C6H5COOH + NaOH C6H5 COONa + H2O C1V1 = C2V2 0.10 x 20 = 0.20 x V2 ∴ V2 = 3 cm10 0.20 0.10x20 = 52. F 3 F Mg, Ba Rb F ˈ MgCl2, BaCl2 RbCl 53. F 3 ˈ F F 54. F 4 F F ˈ F F 55. F 3 F ( ), ( ) ( ) F F ( ) ˈ F F F 56. F 4 IV F F F F F 57. F 2 II F F F F F 58. F 2 F 200 C = mot 176 81x10 3− ∴ F 20 C = molx10 176 81 x 200 20 3− = 4.6 x 10-5 mol 59. F 4 HO - CH2 CH C OH+H NH CH2 C OH F F F 4 NH2 60. F 3 I ˈ n CH2 = CH2 [-CH2-CH2]n II ˈ n CH2 = CH [-CH2-CH]n III C2H4 + H2O C2H5OH IV C2H5OH + O2 CH3COOH + H2O Cl O O O Cl

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  • 1. 92 15 F A-NET ( ) (1) 24Cr 29Cu F F F 24Cr 29Cu 1. [Ar] 4s2 3d4 [Ar] 4s1 3d10 2. [Ar] 4s2 3d4 [Ar] 4s2 3d9 3. [Kr] 5s1 4d5 [Kr] 5s1 4d10 4. [Ar] 4s1 3d5 [Ar] 4s1 3d10 (2) F 60 2 F F F F 27 F ˈ F 1. 26 28 2. 33 33 3. 31 35 4. 32 33 (3) (Lattice energy) 1. NaCl 2. MgO 3. CaCl2 4.AlF3 (4) 6 bonding electrons 1. C2H4 2. CO2 3. H2S 4. NCl3 (5) F F F 1. C6H5NH2 2. C6H5CO2Na 3. CH3CH (OH) CH3 4. CH3CH (NH2) CO2H (6) ˈ lattice energy XY 1. X (s) + Y(s) → XY(s) 2. X (g) + Y(g) → XY (s) 3. + )s(X + − )s(Y → XY (s) 4. + )g(X + − )g(Y → XY (s) (7) F F F (nm) 1. A -1 0.181 2. B +1 0.169 3. C +2 0.065 4 D +2 0.135 (8) 10 m3 ˈ 50 kPa 30 m3 ˈ 100 kPa F F F ˈ F 1. 75 kPa 2. 87.5 kPa 3. 125 kPa 4. 150 kPa (9) F ˈ (the enthalpy change of formation of a compound) 1. 2H2(g) + O2(g) → 2H2O(g) 2. Na(s) + Cl(g) → NaCl(s) 3. H2O(l) + NaCl(s) → NaCl (aq) 4. K(s) + Mn (s) + 2O2 (g) → KMnO4 (s)
  • 2. 93 (10) ∆H F (1) .CO(g) + 2 1 O2(g) → CO2(g) ∆H1 = -283 kJ.mol-1 (2) .H2(g) + 2 1 O2(g) → H2O(l) ∆H2 = -286 kJ.mol-1 (3) .CH3OH(l) + 2 3 O2(g) → CO2(g) 2H2O(l) ∆H3 = -715 kJ.mol-1 ∆H CO(g) + 2H2(g) → CH3OH (l) 1. -146 kJ.mol-1 2. -140 kJ.mol-1 3. +140 kJ.mol-1 4. +146 kJ.mol-1 (11) F F ˈ CaCl2 (aq) + 2NaOH(aq) → 2NaCl (aq) + Cd (OH)2(s) NaOH F F 0.10 F 9.0 cm3 CdCl2 F F 1.00 F 500 cm3 F Cd (OH)2 ( Cd = 112.4, O = 16, H = 1) 1. 10002 146.40.109.0 × ×× 2. 509 146.40.109.02 ××× 3. 1000 146.40.109.0 ×× 4. 1000 146.40.109.02 ××× (12) F ˈ F 1. CaCO3 (s) + 2HCl(ag) → CaCl2 (aq) + CO2 (g) + H2O (l) 2. CuS(s) + O2 (g) → Cu(s) + SO2 (g) 3. Hg(NO3)2(aq) + H2S (g) → HgS(s) + 2HNO3 (aq) 4. 2NaOH(aq) + H2SO4(aq) → Na2SO4 (aq) + 2H2O(l) (13) I, II, III IV F
  • 3. 94 F F F I II III IV 1 F 2 F 3 F 4 F (14) F ˈ F F 1 4 F F ˈ 1. 2, 3 2. 2, 7 3. 2, 8, 2 4. 2, 8, 8, 1 (15) F 4 F F 500 cm3 ˈ F 1. A 2. B 3. C 4. D (16) F F 25o C (298 K) 101.3 kPa 1. 1.0 2. 1.0 3. 1.0 4. 1.0 (17) thorium chloride ˈ ThCl4 ammonium chromite ˈ NH4CrO2 F ˈ thorium chromite 1. ThCrO2 2. Th2CrO2 3. Th (CrO2)4 4. Th (CrO2)2 (18) 69 Ga 68.9 71 Ga 70.9 F 69.7 F 69 Ga ˈ F 1. 9.689.70 9.687.69 − − = 0.40 2. 9.689.70 7.699.70 − − = 0.60 3. 7.699.70 9.68 + = 0.49 4. 9.707.699.68 9.68 ++ = 0.33 (19) papaverine F impotence F F 70.75% , 6.25% , 4.13% 18.87% F papaverine 339.2 papaverine F 1. C20H21NO4 2. C20H11NO2 3. C20H23N2O3 4. C17H30NO5 I1 = 744 , I2 = 1457 , I3 = 7739 , I4 = 10547
  • 4. 95 (20) F ˈ F 2, 2-dimethyl-3-elthyl hexane 1. 3 23 3223 3 CH CHCH CHCHCHCHCCH CH −−−−− 2. 33 323 3 CHCH CHCHCCHCH CH −−−− 3. 3 32 323 3 CH CHCH CHCHCCHCH CH −−−− 4. CH3 CH2 CH2 CH2 CH CH2 CH2 CH2 CH3 CH3 (21) E F ˈ E2O3 F E ˈ F 1. Mg 2. Al 3. Si 4. P (22) F 1. −216 8 O 2. F19 9 3. Na23 11 4. +327 13 Al (23) F + 2Ag+ + 2Ag(s) + 2H+ OH OH O O
  • 5. 96 1. 2. Ag+ 3. 4. Ag (24) F F 0.100 F 1.00 F F 0.100 F 1.00 F F ˈ F 1. 0.0500 mol L-1 2. 0.100 mol L-1 3. 0.150 mol L-1 4. 0.200 mol L-1 (25) F F 71.0 F F ( Cl = 35.5) 1. 24.5 273 K 101.3 kPa 2. 6.02 x 1023 3. 2 4. 2 (26) 5.0 F F 1.00 F 20 cm3 F F F ( Zn = 65) 1. 0.00 g 2. 0.65 g 3. 3.70 g 4. 4.35 g (27) F H OH O H C C C H H OH ˅ ˈ F F 1. CH2O C3H6O3 2. CH2O (CH2O)n 3. C2H4O2(OH) C3H4O3 4. (CH2O)n CH2O (28) F 0.25 F ˈ F 1. 0.50 2. 0.25 3. 3.01 x 1023 4. 1.51 x 1023 (29) F (allotropes) 1. 14 C 12 C 2. 1 2- 3. Fe2+ Fe3+ 4. O2 O3 O O OH OH
  • 6. 97 (30) F :- F 5.85 F F ˈ 250 F F F F F ( Na = 23, Cl = 35.5) 1. 1000 250 58.5 5.85 2. 250 1000 58.5 5.85 3. 58.5 5.85 1000 250 4. 1000 250 5.85 58.5 (31) ʽ F 1. Cu + H2SO4 → CuSO4 + SO2 + H2O 2. Cu + 2H2SO4 → CuSO4 + SO2 + 2H2O 3. Cu + 2H2SO4 → Cu (SO4)2 + SO2 + 2H2O 4. 2Cu + H2SO4 → Cu2SO4 + SO2 + H2O (32) F F F F 32800 Jg-1 F F kJ mol-1 F F F ( C=12) 1. 394000 2. 394 3. 32.8 4. 2.73 (33) pH = 3.0 F F F F 1. 3.0 mol L-1 2. 1.0 x 10-3 mol L-1 3. 1.0 x 10-11 mol L-1 4. 3.0 x 10-14 mol L-1 (34) F 1000 F 50.0 65o C F ˈ (kPa) 1. 35.69 kPa 2. 1408.6 kPa 3. 2000 kPa 4. 2005.9 kPa (35) F ˈ (N2H4) F N2O4 F F ∆ o fH (kJmol-1 ) H2O (l) -285 H2O (g) -242 N2H4(l) +51 N2H4(g) +95 N2O4 (l) -20 N2O4(g) +10 F ∆H0 F 1. +968 kJ 2. -968 kJ 3. +1050 kJ 4. -1050 kJ 2N2H4(l) + N2O4(l) → 3 N2(g) + 4H2O (g)
  • 7. 98 36. F (kJ mol-1 ) 298 K C C 348 C = C 614 C H 413 H H 436 ∆ Ho 1. +124 kJ 2. -124 kJ 3. 2702 kJ 4. 2826 kJ F F F F 37 39 F F F F F F kJ mol-1 F Ca2+ (g) + 2Cl- (g) +1743 X -2249 Ca(g) 2Cl(g) Y +192 +242 Ca(s) + Cl2(g) CaCl2(s) -798 (37) Y 1. 2. 3. 4. (38) CaCl2 (s) F 1. Ca(g) + 2 1 Cl2 (g) → CaCl(s) ∆H = -798 kJ 2. Ca(s) + Cl2(g) → CaCl2(s) ∆H = -2249 kJ 3. Ca(s) + Cl2(g) → CaCl2(s) ∆H = -798 kJ 4. Ca2+ (g) + 2Cl- (g) → CaCl2(s) ∆H = -2249 kJ (39) F F (Hess s law) ∆H X F kJ mol-1 1. -726 kJ mol-1 2. -363 kJ mol-1 3. +726 kJ mol-1 4. +242 kJ mol-1 (40) F ˈ F F (AgCl) Ksp = 2.0 x 10-10 F F (Ag2CO3) Ksp = 8.0 x 10-12 C2H4 (g) + H2 (g) → C2H6 (g)
  • 8. 99 F F F 1. AgCl F F Ag2CO3 2. Ag2CO3 F F AgCl 3. AgCl F F Ag2CO3 4. AgCl Ag2CO3 F F F (41) F F F 40 F F F 0.10 F AgCl F F 1. 2 x 10-10 mol dm-3 2. 2 x 10-9 mol dm-3 3. 1.4 x 10-5 mol dm-3 4. 1.26 x 10-4 mol dm-3 (42) F ˈ H2(g) + CO2 (g) H2O(g) + CO(g) F (K) F 0.60 900 K F 2.0 F 2.0 F F F 1.0 F F F F F F 900 K ˈ F 1. 0.60 mol dm-3 2. 0.87 mol dm-3 3. 1.20 mol dm-3 4. 1.74 mol dm-3 (43) F ˈ F 0.287 ʽ F F F F F Fe2+ F F F F F F 0.103 F F F F 9.84 cm3 ˈ F F F ( H = 1, O = 16, Fe = 55.85, Mn = 55) 1. 0.28 2. 1.40 3. 14.0 4. 28.3 (44) 4 F F ˈ F 1. HA 2. HB 3. HC 4. HD (45) ˈ F F 1. 24 2. 25 3. 27 4. 76 Fe2+ + MnO4 - + 8H+ → Fe3+ + Mn2+ + 4H2O
  • 9. 100 (46) E E F 1. 1 F 2. F ECl4 3. F F 4. F F F F F F F F F 47-49 F F F 1 ˈ (47) 5 (COMPOUND 5) 1. 1 butanol 2. butanoic acid 3. 1 bromobutane 4. 1 butene (48) F 2 3 1. ʾ 2. F 3. F 4. (49) F ˈ REACTION III 1. CH3CH2CH2CO2CH2CH2CH3 CH3CH2CH2COOH + CH2CH2CH2CH2OH 2. CH2CH2CH2CH2OH CH3 CH2 CH = CH2 + H2O 3. CH3CH2CH2COOH + HBr → CH3CH2CH2COOH2 + + Br- 4. CH3CH2CH2CH2OH + HBr → CH3CH2CH2CH2Br + H2O 2 , 8 , 4 H2SO4 Heat H2O H+
  • 10. 101 (50) ˈ F 1. 20 2. 40 3. 60 4. 80 (51) ˈ F ˈ C6H5COOH C6H5COO- + H+ pH F F 0.100 F 20.0 cm3 F F F 0.200 F C F F F cm3 1. 0.002 2. 0.01 3. 10 4. 100 (52) F F (white powder) F F ˈ F F F F F 1. BaCl2, SrCl2, RbCl, CsCl 2. MgCl2 , CaCl2, LiCl, RbCl 3. MgCl2, BaCl2, RbCl 4. NaCl, MgCl2, BaCl2
  • 11. 102 (53) F F F F F F F F F F F F F F ˈ F F F 1. ˈ F F F 2. ˈ 3. F 4. ˈ F F (54) ˄ ˈ , F F ˈ F F F ˈ F ˂ F F F F . ˈ ˄ . ˄ ˈ Al (OH)3 . F F ˈ F . F ˂ F F F 1. F 2. F 3. , F 4. , , Al (s) | Al3+ (aq) ,OH- (aq) | O2(g) (over graphite electrode) F F ˈ F (salt bridge)
  • 12. 103 (55) F F F F F F 1. , 2. , 3. , 4. , , (56) X + Y→ XY F ˈ F 1. I 2. II 3. III 4. IV (57) F 46 F X Y ˈ F XY ˈ F XY F X Y F 1. I 2. II 3. III 4. IV . A A H2 . A F F F CO , F F CH3OH . F F F . F F F F F F F
  • 13. 104 (58) F (Orange juice) ˈ F 20 (mL) C F C ( H = 1, C = 12, O = 16) O H OH O = C C C H C = C CH2OH HO OH 1. 4.6 × 10-4 mol 2. 4.6 × 10-5 mol 3. 8.1 × 10-4 mol 4. 8.1 × 10-5 mol (59) F F H O HO CH2 C C NH2 OH (Tyrosine : Tyr) H O H C C NH2 OH (Glycine : Gly)
  • 14. 105 F ˈ F Tyr Gly O O 1. NH2 CH2 C NH CH C CH2 OH O OH O O 2. NH2 CH2 C O O CH2 CH - C NH2 OH O 3. HO O CH2 CH2 CH CH NH O C CH2 MH2 COOH O 4. HO O CH2 CH C O NH2 NH CH2 C OH (60) F ˈ F F I II F F III IV F F F I II III IV 1 2 F 3 4 F F ʽ F (PVC) I III IV II
  • 15. 106 15 F A-NET ( ) F 1 F 4 F 2 F 3 = 2 AA 21 + = 60 A1 + A2 = 120 p1 + n1 + p2 + n2 = 120 27 + n1 + 27 + n2 = 120 ∴ n1 + n2 = 66 F F F F 3 F 4 F 4 F 4 H H C = C H H 12 bonding electrons O = C = O 4 bonding electrons 4 bonding electrons 6 bonding electrons F 5 F 1 C6H5NH2 ˈ F F F 6 F 4 F F F F 7 F 3 (∆Hhyd.) F F 8 F 2 = 10 + 30 = 40 m3 P1 = 50 40 10 × = 12.5 kPa P2 = 100 40 30 × = 75 kPa ∴ = P1 + P2 = 12.5 + 75 = 87.5 kPa F 9 F 4 ∆Hf F 1 25o C 1 atm Cl N Cl Cl S H H NH2
  • 16. 107 F 10 F 2 (1) .CO(g) + 2 1 O2(g) → CO2(g) ∆H1 = -283 kJ.mol-1 (2) x 2 2H2(g) + O2(g) → 2H2O(l) ∆H2 = -572 kJ.mol-1 (3) .CO2(g) + 2H2O(l) → CH3OH(l) + 2 3 O2(g) ∆H3 = +715 kJ.mol-1 (1) + (2) + (3) CO(g) + 2H2(g) → CH3OH (l) ∆H = -283 572 + 715 kJ.mol-1 = -140 kJ.mol-1 11. F 1 mol Cd (OH)2 = 2 1 mol NaOH 146.4 x = 1000 9x0.10 x 2 1 ∴ F Cd (OH)2 = 2x1000 46.49.0x0.10x1 12. 2 +2 -2 0 +4 CuS (s) + O2(g) Cu (s) + SO2(g) F F ˈ F 13. F 1 I ˈ F II ˈ F ˈ III ˈ IV ˈ F 14. F 3 F F I2 I3 F F 2 15. F 3 F pH F F F pH F (C6H5COOH) ˈ F F 16. F 2 ˈ F ˈ (monatomic molecule) 1 F F 17. F 3 Th4+ + CrO2 ˂ ˈ F Th (CrO2)4
  • 17. 108 18. F 2 F 69 Ga = 9.689.70 7.699.70 − − = 0.60 19. F 1 C20H21NO4 = (12x20)+(1x21)+(1x14)+(4x16) = 339 F F F 339.2 20. F 4 F F F F CH3 CH3 C CH CH2 CH2 CH3 CH3 CH2CH3 2,2- dimethyl 3 ethyl hexane ˈ F F 4 21. F 2 E ˈ Al F Al2O3 E2O3 F 22. F 2 1. −216 8 O = 8+2 = 10 2. F19 9 = 9 3. Na23 11 = 11 4. +327 13 Al = 13 3 = 10 23. F 2 Ag+ + e- Ag 24. F 3 KNO3 = 0.100 x 1 = 0.100 mol ∴ − 3NO = 0.100 mol Ca(NO3)2 = 0.100 x 1 = 0.100 mol ∴ − 3NO = 2 x 0.100 = 0.200 mol [ ]− 3NO = 1 mol.L0.150 2 0.300 2 0.2000.100 − == + 25. F 3 1 mol Cl2 = 2 mol Cl = 2 x 6.02 x 1023 = 22.4 dm3 at STP = 2 x 35.5 g = 71 g 26. F 4 Zn + 2HCl ZnCl2 + H2 mol Zn = 2 1 mol HCl 1000 20x1 x 2 1 65 x = ∴ x = 0.65 g Zn = 5.00 0.65 g = 4.35 g 27. F 1 C3H6O3 ˈ F F CH2O
  • 18. 109 28. F 3 1 mol CaCl2 F = 2 mol Cl = 2 x 6.02 x 1023 0.25 mol CaCl2 F = 0.25x2x6.02x1023 = 3.01 x 1023 29. F 4 O2 O3 ˈ 30. F 1 [NaCl] = ˈ NaCl = 1000 250 58.5 5.85 F 31. 2 ˈ F F F F Cu + 2H2SO4 CuSO4 + SO2 + 2H2O 32. F 20 F F F F kJ, mol-1 = 1 kJ.mol 1000 32800x12 − = 393.6 kJ.mol-1 = 394 kJ.mol-1 ( ) 33. F 3 pH = 3 ∴ [H3O+ ] = 10-pH = 10-3 mol.dm-3 [OH- ] = 3 14 10 10 − − = 1.0 x 10-11 mol.dm-3 mol.L-1 34. F 4 PV = nRT = RT M g . = kPax2005.9 28.02x50 x3381000x8.134 35. F 4 ∆H0 = ∑∆ 0 fH (products) - ∑∆ 0 fH (reactants) = [4(-242) + (3x0) [(2x51)+(-20)] kJ = -1050kJ 36. F 2 ( ) = (1x614) + (4x413) + (1x436) = 2702 kJ F ( ) = (1x348) + (6x413) = 2826 kJ ∆H0 = + 2702 2826 = -124 kJ
  • 19. 110 37. F 1 ˈ F 38. F 3 CaCl2 (s) Ca (s) Cl2(g) 39. F 2 (2x+2249)-(192+242+1743) = 798 2x = -726 ∴ x = - 363 kJ. mol-1 40. F 2 Ksp AgCl = [Ag+ ]2 [Cl- ] 2.0 x 10-10 = x2 ∴ x = 1.414 x 10-5 mol.dm-3 Ksp Ag2CO3 = [Ag+ ] [CO3 2- ] 8x10-12 = x2 .x = x3 ∴ x = 2 x10-4 mol.dm-3 Ag2 CO3 F F AgCl 41. F 2 ksp = [Ag+ ] [Cl- ] 2x10-10 = (x) (0.10) ∴ k = 1.0 10x2 10− = 2x10-9 mol.dm-3 42. F 2 K = ][CO][H [CO]0][H 22 2 0.60 = 2 2 )x2( x − ∴ x = 0.87 mol.dm-3 43. F 2 5Fe2+ + MnO4 + 8H+ 5Fe2+ +Mn2+ + 4H2O mol MnO4 = x0.103 1000 9.84 = 1.01 x 10-3 mol mol Fe2+ = 5 x 1.01 x 10-3 x 55.85 = 0.283 g % Carbon = 1.40x100 0.287 0.2830.287 = − 44. F 2 HB H+ F ˈ F 45. F 1 F peak F 24 46. F 2 E ˈ F 4A 3 F F ˈ E4+ + Cl- = ECl4 47. F 4 F 1 butyl butanoate 2 1 butanol 3 butanoic acid 4 1 bromobutane 5 1 butene 48. F 3 F F F F 49. F 4 2 ˈ F (ROH) HBr F RBr + H2O 50. F 4 F F 800 C
  • 20. 111 51. F 3 C6H5COOH + NaOH C6H5 COONa + H2O C1V1 = C2V2 0.10 x 20 = 0.20 x V2 ∴ V2 = 3 cm10 0.20 0.10x20 = 52. F 3 F Mg, Ba Rb F ˈ MgCl2, BaCl2 RbCl 53. F 3 ˈ F F 54. F 4 F F ˈ F F 55. F 3 F ( ), ( ) ( ) F F ( ) ˈ F F F 56. F 4 IV F F F F F 57. F 2 II F F F F F 58. F 2 F 200 C = mot 176 81x10 3− ∴ F 20 C = molx10 176 81 x 200 20 3− = 4.6 x 10-5 mol 59. F 4 HO - CH2 CH C OH+H NH CH2 C OH F F F 4 NH2 60. F 3 I ˈ n CH2 = CH2 [-CH2-CH2]n II ˈ n CH2 = CH [-CH2-CH]n III C2H4 + H2O C2H5OH IV C2H5OH + O2 CH3COOH + H2O Cl O O O Cl