Using the following compound: Na3[Fe(CN)6] Match the correct definition for each term. A. Iron oxidation state...
Using the following compound: Na3[Fe(CN)6] Match the correct definition for each term.
A. Iron oxidation state
B. Counterion
C. Charge from each ligand
D. Inner coordination sphere
1. Na+
2. CN–
3. 3+
4. 1–
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Using the following compound: Na3[Fe(CN)6] Match the correct
definition for each term.
A. Iron oxidation state...
U Question 31 1 pts Determine the oxidation state and coordination number of iron in Liz[Fe(CN).l....
U Question 31 1 pts Determine the oxidation state and coordination number of iron in Liz[Fe(CN).l. Oxidation state (Select] 0 +1 +2 Coordination +3 +4 +5 +6 -1 -2 -3 -4 -5 Question 32 -6 O pts Question 31 1 pts Determine the oxidation state and coordination number of iron in Lis[Fe(CN).). Oxidation state: Select) Coordination number[Select] 1 2 3 4 5 6 7 8 9 Question 32 O pts
Question 31 1 pts Determine the oxidation state and coordination number of iron in Lig[Fe(CN)6]. Oxidation...
Question 31 1 pts Determine the oxidation state and coordination number of iron in Lig[Fe(CN)6]. Oxidation state: (Select) Coordination number: [Select]
Determine the oxidation state and coordination number of the metal ion in each complex ion. [Cu(CN)2]1-...
Determine the oxidation state and coordination number of the metal ion in each complex ion. [Cu(CN)2]1- [Ag(NH3)2]1+ [Cu(OH2)4]2+ [Pt(NH3)2Cl2] [Fe(CN)6]4- [Fe(OH2)6]2+ [Zn(CN)4]2- [Cd(NH3)4]2+ [Cu(CO)5] [CuCl5]3- [Fe(EDTA)]2- [Pt(en)2]2+
For each of the following transition metal complexes, determine the oxidation state of the metal, its...
For each of the following transition metal complexes, determine the oxidation state of the metal, its coordination number, and the number of d electrons on that metal. (a) RuO4 (b) (CO(NH3).]3+ (c) [Cr(H2O).]8+ (d) Cr(H2O)3Cl2 (e) [Fe(H2O).]3+ (1) (Co(NH3).]2+ (9) MOCI (h) (Pt(CN)4]2- () [Mn(H2O).]2+ (1) Re(CO).Br (k) (Ag(CN 2] (1) [ReH9]?
4. Consider the following complexes. Na, [Fe(ox),] [Cr(H2O) (NHJ) SO, [Pt(en)(ONO)CI] Write the coordination sphere for...
4. Consider the following complexes. Na, [Fe(ox),] [Cr(H2O) (NHJ) SO, [Pt(en)(ONO)CI] Write the coordination sphere for the complexes I, II and III. [3 marks] in each of the Determine the oxidation state of the central atom coordination complex [3 marks] Determine the coordination number in each of the complexes. [3 marks) Name each of the complex using IUPAC system [6 marks) Draw the molecular geometry of complex II. [2 marks] Using Crystal Field Theory, draw the energy diagram of the...
A) B) C) D) E) The correct name for the complex ion [Cr(H 20) 4Cl 2] + is a. tetraaquadichlorochromium. O b. tetraaq...
A)
B)
C)
D)
E)
The correct name for the complex ion [Cr(H 20) 4Cl 2] + is a. tetraaquadichlorochromium. O b. tetraaquadichlorochromate(III). Oc. tetraaquadichlorochromium(III). O d. dichlorotetraaquochromium(II). e. tetraaquadichlorochromium(II). The correct name for the complex ion [Mo(CN) 61 4-is- a. hexacyanomolybdenate(II). b. hexacyanomolybdenum(II). Oc. molybdenum(VIII) cyanide. d. hexacyanomolybdenite(III). e. molybdenum(0) hexacyanide. For the coordination compound [CO(NH 3) 4Cl 2]NO 3, identify, in order, the charge on the complex ion, the oxidation state of the metal, and the coordination number...
pls explain step by step 23) The oxidation number of Fe in KzFe(CN)6 is A) +1....
pls explain step by step
23) The oxidation number of Fe in KzFe(CN)6 is A) +1. B)4. C) +2. D) +3. E)-3. 24) The oxidation number of N in NH4 is A) 0. B) +4. C) -4. D) +2. E)-2.
15. Match each term with the best definition: Terms: 1) Lead Compound 2) Enteral Administration 3)...
15. Match each term with the best definition: Terms: 1) Lead Compound 2) Enteral Administration 3) Drug Regimen 4) Prodrug 5) Pharmacophore 6) Excipient 7) Pharmacokinetic Phase 8) Pharmodynamic Phase 9) Structure Activity Relationship 10) Bioavailability Definition: A) A structure known to be biologically active. MATCHES WITH B) A systematic approach to drug discovery. MATCHES WITH C) The minimal structure of a ligand that binds the receptor. MATCHES WITH D) A systematic plan to effect or maintain health. MATCHES WITH...
Match each element in the left column with its most likely oxidation state in a compound...
Match each element in the left column with its most likely oxidation state in a compound in the right column. (Based on the elements location in the periodic table) magnesium aluminum oxygen chlorine potassium barium nitrogen sulfur fluorine strontium carbon arsenic A. +1 B. +2 C. +3 D. 0 E. -1 F. -2 G. -3 H. +4/-4
6 Identify the coordination number (C.N.), metal oxidation state(O.S.) and the number of metal d electrons...
6 Identify the coordination number (C.N.), metal oxidation state(O.S.) and the number of metal d electrons for each of the following complexes. (a) [Ni(CN):) C.N. = _ ; O.S. = __, d-electrons = d-electrons = (b) [Pd(Cl)]2 C.N. = _ ; O.S. = ___, d-electrons = (c) [Cr(CN)]C.N. =__; O.S. = —, (d) [Fe(CO).]? C.N. = __; O.S. = ___, d-electrons =- (e) [Cr(CI):]& C.N. = ___; O.S. = __, d-electrons = (1) [Ag(CN)2] C.N. = ___; O.S. = ___,...
U Question 31 1 pts Determine the oxidation state and coordination number of iron in Liz[Fe(CN).l. Oxidation state (Select] 0 +1 +2 Coordination +3 +4 +5 +6 -1 -2 -3 -4 -5 Question 32 -6 O pts Question 31 1 pts Determine the oxidation state and coordination number of iron in Lis[Fe(CN).). Oxidation state: Select) Coordination number[Select] 1 2 3 4 5 6 7 8 9 Question 32 O pts
Question 31 1 pts Determine the oxidation state and coordination number of iron in Lig[Fe(CN)6]. Oxidation state: (Select) Coordination number: [Select]
For each of the following transition metal complexes, determine the oxidation state of the metal, its coordination number, and the number of d electrons on that metal. (a) RuO4 (b) (CO(NH3).]3+ (c) [Cr(H2O).]8+ (d) Cr(H2O)3Cl2 (e) [Fe(H2O).]3+ (1) (Co(NH3).]2+ (9) MOCI (h) (Pt(CN)4]2- () [Mn(H2O).]2+ (1) Re(CO).Br (k) (Ag(CN 2] (1) [ReH9]?
4. Consider the following complexes. Na, [Fe(ox),] [Cr(H2O) (NHJ) SO, [Pt(en)(ONO)CI] Write the coordination sphere for the complexes I, II and III. [3 marks] in each of the Determine the oxidation state of the central atom coordination complex [3 marks] Determine the coordination number in each of the complexes. [3 marks) Name each of the complex using IUPAC system [6 marks) Draw the molecular geometry of complex II. [2 marks] Using Crystal Field Theory, draw the energy diagram of the...
A)
B)
C)
D)
E)
The correct name for the complex ion [Cr(H 20) 4Cl 2] + is a. tetraaquadichlorochromium. O b. tetraaquadichlorochromate(III). Oc. tetraaquadichlorochromium(III). O d. dichlorotetraaquochromium(II). e. tetraaquadichlorochromium(II). The correct name for the complex ion [Mo(CN) 61 4-is- a. hexacyanomolybdenate(II). b. hexacyanomolybdenum(II). Oc. molybdenum(VIII) cyanide. d. hexacyanomolybdenite(III). e. molybdenum(0) hexacyanide. For the coordination compound [CO(NH 3) 4Cl 2]NO 3, identify, in order, the charge on the complex ion, the oxidation state of the metal, and the coordination number...
pls explain step by step
23) The oxidation number of Fe in KzFe(CN)6 is A) +1. B)4. C) +2. D) +3. E)-3. 24) The oxidation number of N in NH4 is A) 0. B) +4. C) -4. D) +2. E)-2.
15. Match each term with the best definition: Terms: 1) Lead Compound 2) Enteral Administration 3) Drug Regimen 4) Prodrug 5) Pharmacophore 6) Excipient 7) Pharmacokinetic Phase 8) Pharmodynamic Phase 9) Structure Activity Relationship 10) Bioavailability Definition: A) A structure known to be biologically active. MATCHES WITH B) A systematic approach to drug discovery. MATCHES WITH C) The minimal structure of a ligand that binds the receptor. MATCHES WITH D) A systematic plan to effect or maintain health. MATCHES WITH...
6 Identify the coordination number (C.N.), metal oxidation state(O.S.) and the number of metal d electrons for each of the following complexes. (a) [Ni(CN):) C.N. = _ ; O.S. = __, d-electrons = d-electrons = (b) [Pd(Cl)]2 C.N. = _ ; O.S. = ___, d-electrons = (c) [Cr(CN)]C.N. =__; O.S. = —, (d) [Fe(CO).]? C.N. = __; O.S. = ___, d-electrons =- (e) [Cr(CI):]& C.N. = ___; O.S. = __, d-electrons = (1) [Ag(CN)2] C.N. = ___; O.S. = ___,...
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