Determine the molar solubility of copper(I) azide (CuN3CuN3) in a solution with a pH of 10.1210.12. Ignore activities. The ?sp for CuN3CuN3 is 4.9×10−94.9×10−9. The ?a for HN3HN3 is 2.2×10−5.
Determine the molar solubility of copper(I) azide (CuN3CuN3) in a solution with a pH of 10.1210.12....
Determine the molar solubility of copper(I) azide (CuN3) in a solution with a pH of 12.50. Ignore activities. The ?sp for CuN3 is 4.9×10−9. The Ka for HN3 is 2.2×10−5
Determine the molar solubility of copper(1) azide (CuN,) in a solution with a pH of 8.59. Ignore activities. The Ksp for CuN, is 4.9 x 10-9. The K, for HN, is 2.2 x 10-5 molar solubility:
Can someone help me with chemistry, Answer below is wrong!
gnoring activities, determine the molar solubility of copper (1) azide (CuN3) in a solution with a pH of 3.960. Ksp (CuNs) = 4.9 10-9, Ka (HN3)-2241 0-5 Number 4.45 x 10-5
Determine the molar solubility ( ? ) of Zn(CN)2 in a solution with a pH=5.89 . Ignore activities. The ?sp for Zn(CN)2 is 3.0×10−16 . The ?a for HCN is 6.2×10−10.
Determine the molar solubility ( ? ) of Ag2CO3 in a buffered solution with a pH of 3.930 using the systematic treatment of equilibrium. ?sp(Ag2CO3)=8.46×10−12 ; ?a1(H2CO3)=4.45×10−7 ; ?a2(H2CO3)=4.69×10−11 .
Determine the molar solubility ( ? ) of Ag2CO3 in a buffered solution with a pH of 5.941 using the systematic treatment of equilibrium. ?sp(Ag2CO3)=8.46×10−12 ; ?a1(H2CO3)=4.45×10−7 ; ?a2(H2CO3)=4.69×10−11 .
Determine the molar solubility (S) of Zn(CN)2 in a solution with a pH=5.06. Ignore activities. The Ksp for Zn(CN)2 is 3.0×10−16 TheKa for HCN is 6.2×10−10
B) Molar Solubility. 2- Determine the molar solubility of copper(1) cyanide.
Determine the molar solubility (S) of Ag2CO3 in a buffered solution with a pH of 3.462 using the systematic treatment of equilibrium. Ksp(Ag2CO3) = 8.46 × 10–12; Ka1(H2CO3) = 4.45 × 10–7; Ka2(H2CO3) = 4.69 × 10–11.
determine the molar solubility (S) of Ag2CO3 in a buffered solution with a pH of 3.519 using the systematic treatment of equilibrium. Ksp (Ag2CO3) = 8.46x10^-12 ; Ka1 (H2CO3) = 4.45x10^-7 ; Ka2 (H2CO3) = 4.69 x 10^-11