- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 1 (133.16 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 2 (133.72 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 3 (190.81 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 4 (138.1 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 5 (125.38 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 6 (149.43 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 7 (172.91 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 8 (164.68 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 9 (164.48 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 10 (151.36 KiB) Viewed 52 times
- Estion 11 In The Reaction Between Aqueous Cobalt Chloride With Ammonia The Only Complex To Be Formed Is The Hexaammin 11 (149.04 KiB) Viewed 52 times
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ESTION 11 In the reaction between aqueous cobalt() chloride with ammonia, the only complex to be formed is the hexaammine species (Co(NH4)214. The six stepwise stability constants, K, K, corresponding to this ligand substitution reaction at 298K, are given below. - yet answered 6' ked out of 4 3 00 K = = 1.5 x 10 K, = 3.6 x 10 = K, = 7.4 x 10 2 K = 1.3 x 10 Flag K = 0.4 K = 0.07 6 stion Fill in the blanks to provide a balanced equation representing Step 1 of this reaction. * [ NH, OD + H₂O ability constant B6 for this reaction. CO(H20)2(NH3)4 Co(H20)3(NH3)3 Co(H20)4(NH3)2 Co(H20)6 Co(H20)(NH3)5 Co(H20)5(NH3) Co(H20) 2+ -1 - - 1 AGº (298K) for the formation of [Co(NH4)21**. R = 8.314 j'kmol AG = -1 kJmol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of Co(NH3)] is a spontaneous process b. AS is expected to be positive for this transformation
2+ N 11 In the reaction between aqueous cobalt(1) chloride with ammonia, the only complex to be formed is the hexaammine species (Co(NH,)o?" The six stepwise stability constants, K, -K, corresponding to this ligand substitution reaction at 298K, are given below. swered 1 it of 4 2 K, - 1.5 x 10 ( K = 7.4 x 10 2. K, = 3.6 x 10 Kg = 0.4 K = 1.3 x 10 K = 0.07 Fill in the blanks to provide a balanced equation representing Step 1 of this reaction. 2+ [ - 2 + NHA ~HO 2 Calculate the overall stability tant B6 for this reaction. 1 او هم د حل 3 B6 = x 10^ 4. 2+ -1 -1 -1 Calculate the value of AGO (25 or the formation of [Co(NH). *. R = 8.314 jk moi? -1 AGO = kJmol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)2) is a spontaneous process b. AS is expected to be positive for this transformation
24 In the reaction between aqueous cobalt(1) chloride with ammonia, the only complex to be formed is the hexaammine species (Co(NH) The six stepwise stability constants, K, K, corresponding to this ligand substitution reaction at 298K, are given below. ed 6 3 2 4 K. = 1,5 x 10 K = 3.6 x 10 K = 7.4 x 10 2 K = 1.3 x 10 K = 0.4 K = 0.07 6 Fill in the blanks to provide a balanced equation representing Step 1 of this reaction. 2+ v 24 + NH, <> Jan * + НО Co(H20)4(NH3)2 Calculate the overall stability constant B6 for CO(NH3)6 Co(H20)2(NH3)4 Co(H20)3(NH3)3 B6 = Co(H20)5(NH3) Co(H2O)(NH3)5 Calculate the value of AG (298K) for the formation of [Co(NH))". R = 8.3141 k mol x 10^ - 1 - 1 -1 -1 kimol AGO Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)) is a spontaneous process
11 In the reaction between aqueous cobalt(II) chloride with ammonia, the only complex to be formed is the hexaammine species (Co(NH)J". The six stepwise stability constants, K, K, corresponding to this ligand substitution reaction at 298K, are given below. swered of 4 3 2 = K = 1.5 x 10 K = 7.4 x 10 K = 3.6 x 10 K = 0.4 K = 1.3 x 10 K = 0.07 6 3 Fill in the blanks to provide a balanced equation representing Step 1 of this reaction. - 24 HO + [ + NH, OD 0 6 Calculate the overall stability constant B6 for this reaction. 1 B6 = x 10^ 3 4 2 2+ Calculate the value of AGⓇ (298K) for the formation of [Co(NH))*. .R ik molt -1 AGO klmol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)2) is a spontaneous process b. AS is expected to be positive for this transformation c. At low concentrations of ammonia, ligand substitution does not occur
V11 In the reaction between aqueous cobalt(II) chloride with ammonia, the only complex to be formed is the hexaammine species (Co(NH)d" The six stepwise stability constants, K, K, corresponding to this ligand substitution reaction at 298K, are given below. swered Tor 4 K = 1.5x 10 K, = 3.6 x 10 K, = 7.4 x 10 K = 1.3 x 10 K = 0.4 K = 0.07 4 6 Fill in the blanks to provide a balanced equation representing Step 1 of this reaction. v>" + 장 [ INH, OD У но Calculate the overall stability constant B6 for this reaction. B6 = x 10^ 2+ -1 Calculate the value of 98K) for the formation of [Co(NH),}* . R = 8.314 j k moj? -1 AG = klmol Select whether the following statements are true, false, or cannot be determined (ND). 2+ is a spontaneous process Formation of ICAINH)
Calculate the overall stability constant B6 for this reaction. 36 = x 10^ 24 -1-1 - 1 Calculate the value of AGⓇ (298K) for the formation of [Co(NH). R = 8.314 ;'k'mol AG - -1 kimol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)) is a spontaneous process b. AS is expected to be positive for this transformation true false ND c. At low concentrations of ammonia, ligand substituti It occur d. The value for K, indicates that the equilibrium mixture contains more products than reactants e. Based on the value obtained for AG, the addition of ammonia to Co[(4,0))** is a slow process 2+ f. As the substitution reaction proceeds, ligand replacement becomes easier
2+ -1 Calculate the value of AGⓇ (298K) for the formation of [CO(NH,),}**. R = 8.314 ;*k*mol -1 AGO IJmol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH)] is a spontaneous process b. AS is expected to be positive for this transformation It occur c. At low concentrations of ammonia, ligand substitutio ND false d. The value for K indicates that the equilibrium mixtul true is more products than reactants 2+ e. Based on the value obtained for AG, the addition of ammonia to Co[(H2O) is a slow process f. As the substitution reaction proceeds, ligand replacement becomes easier
B6 = x 10^ 2+ - 1 1 - 1 Calculate the value of AGº (298K) for the formation of [CO(NH). R = 8.314 ;'*'mol 3'6' AGE IJmol Select whether the following statements are true, false, or cannot be determined (ND). a. Formation of [Co(NH, ) is a spontaneous process b. AS is expected to be positive for this transformation c. At low concentrations of ammonia, ligand substitution does not occur han reactants ND d. The value for K indicates that the equilibrium mixture contains more false true e. Based on the value obtained for AG, the addition of ammonia to Co[(! 216 sa slow process f. As the substitution reaction proceeds, ligand replacement becomes easier
Calculate the overall stability constant B6 for this reaction. B6 = x 10^ 2+ 1 1 -1 Calculate the value of AGⓇ (298K) for the formation of [CO(NH,))". R = 8.314 j'K"moi? -1 AGO kJmol' Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)61 is a spontaneous process b. AS is expected to be positive for this transformation c. At low concentrations of ammonia, ligand substitution does not occur d. The value for K indicates that the equilibrium mixture contains more products than reactants 5 2+ e. Based on the value obtained for AG, the addition of ammonia to Co[(4,0)) is a slow proces false ND true f. As the substitution reaction proceeds, ligand replacement becomes easier
36 = x 10^ 2+ -1 -1 -1 Calculate the value of AGⓇ (298K) for the formation of [Co(NH). R = 8.314 j'k'mol 1 AG = IJmol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)61 is a spontaneous process b. AS is expected to be positive for this transformation c. At low concentrations of ammonia, ligand substitution does not occur d. The value for K indicates that the equilibrium mixture contains more products than reactants e. Based on the value obtained for AG, the addition of ammonia to Co[(H,0))** is a slow process 2+ f. As the substitution reaction proceeds, ligand replacement becomes easier ND true false
B6 = X 107 2+ Calculate the value of AGⓇ (298K) for the formation of [Co(NH,)0134. R = 8.314 j'k-moi AG kimol Select whether the following statements are true, false, or cannot be determined (ND). 2+ a. Formation of [Co(NH3)) is a spontaneous process b. AS is expected to be positive for this transformation c. At low concentrations of ammonia, ligand substitution does not occur d. The value for K indicates that the equilibrium mixture contains more products than reactants 2+ e. Based on the value obtained for AG, the addition of ammonia to Co[(H,0)) is a slow process f. As the substitution reaction proceeds, ligand replacement becomes easier ho true ND false