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'X' is the number of acidic oxides among textVO_2, textV_2textO_3, textCrO_3, textV_2textO_5 and textMn_2textO_7. [cite: 307, 316] The primary valency of cobalt in [textCo(textH_2textNCH_2textCH_2textNH_2)_3]_2(textSO_4)_3 is Y. The value of textX + textY is:

Solution & Explanation

### Related Formula textPrimary Valency = textOxidation State of the central metal atom textOxide characterization shortcut: Higher oxidation states increases acidic properties. ### Core Logic Step 1: Determine textX (number of acidic oxides): - Oxide characters for transitional blocks: - textV_2textO_3: Basic - textVO_2, textV_2textO_5: Amphoteric - textCrO_3 (+6), textMn_2textO_7 (+7): Highly acidic due to elevated metal oxidation numbers. [cite: 925, 927] - Therefore, textX = 2. ### Step 1: Finding Primary Valency Y Step 2: Determine textY (primary valency of cobalt): Dissociation of the coordination complex in solution occurs as follows: [textCo(texten)3]2(textSO4)3 ightarrow 2[textCo(texten)3]^3+ + 3textSO4^2- Since ethylenediamine (texten) is a neutral bidentate ligand, the oxidation state of Cobalt is +3. Thus, primary valency textY = 3. ### Step 2: Total Calculations Summing both isolated integer parts: X + Y = 2 + 3 = 5 ### Pattern Recognition Oxides matching guideline: For transition metals, oxides in lower oxidation states (+2, +3) are basic, intermediate ones (+4, +5) are amphoteric, and highest configurations (+6, +7) are purely acidic. Primary valency is Werner's synonym for oxidation number. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: d- and f-Block Elements Class 12 Chemistry: Coordination Compounds

Reference Study Guides

More Coordination Compounds Previous-Year Questions — Page 5

Q31 2025 Crystal Field Theory
Which one of the following complexes will have Delta_0 = 0 and mu = 5.96mathrm~B.M.?
  • A. [Fe(CN)_6]^4-
  • B. [Co(NH_3)_6]^3+
  • C. [FeF_6]^4-
  • D. [Mn(SCN)_6]^4-

Solution

### Related Formula mu = sqrtn(n+2)mathrm~B.M. ### Core Logic Let's analyze complex choice (4): [Mn(SCN)_6]^4-. Here, Mn is in the +2 oxidation state: Mn^2+ implies 3d^5 4s^0. Since SCN^- is classified as a weak field ligand (WFL), no pairing takes place within the octahedral crystal splitting design: textConfiguration: t_2g^3 e_g^2 The net number of unpaired electrons is n = 5. Evaluating the spin-only parameter values: mu = sqrt5(5+2) = sqrt35 approx 5.96mathrm~B.M. textCFSE = [-0.4 times 3 + 0.6 times 2]Delta_0 = 0 ### Pattern Recognition A magnetic value mu = 5.96mathrm~B.M. points straight to a high-spin d^5 structural configuration. High-spin d^5 symmetric systems always feature zero crystal stabilization energy value output (textCFSE = 0). ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: Coordination Compounds
Q34 2025 Isomerism in Coordination Compounds
Number of stereoisomers possible for the complexes, [CrCl_3(py)_3] and [CrCl_2(ox)_2]^3- are respectively (py = pyridine, ox = oxalate):
  • A. text3 \& 3
  • B. text2 \& 2
  • C. text2 \& 3
  • D. text1 \& 2

Solution

### Core Logic Let's examine both coordination systems independently: 1. **[CrCl_3(py)_3]** maps directly to an MA_3B_3 octahedral framework. This specific architecture exhibits exactly 2 geometrical isomers: **facial (fac)** and **meridional (mer)**. Both structures possess internal planes of symmetry and are optically inactive. Total stereoisomers = 2. 2. **[CrCl_2(ox)_2]^3-** represents an MA_2(XX)_2 configuration where oxalate is a bidentate ligand. This setup produces 2 geometrical isomers: * *trans-isomer*: Possesses an internal inversion center/symmetry plane, making it optically inactive. * *cis-isomer*: Lacks planes of symmetry, making it chiral. It exists as a pair of non-superimposable enantiomers (dextro and levo configurations). * Total stereoisomers for the bis-oxalate complex = 1 (trans) + 2 (cis enantiomeric pair) = 3. ### Pattern Recognition For MA_3B_3 systems, remember fac/mer = 2. For bidentate bis-complexes MA_2(XX)_2, remember that the cis-isomer is always asymmetric and splits into an optically active pair. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: Coordination Compounds
Q37 2025 Werner's Theory
Match List-I with List-II
List-I (Complex) List-II (Primary valency and Secondary valency) (A) [textCo(en)_2textCl_2]textCl(I) 3      6 (B) [textPt(NH_3)_2textCl(NO_2)](II) 3      4 (C) textHg[textCo(SCN)_4](III) 2      6 (D) [textMg(EDTA)]^2-(IV) 2      4 Choose the correct answer from the options given below:
  • A. text(A)-(III), (B)-(I), (C)-(II), (D)-(IV)
  • B. text(A)-(I), (B)-(IV), (C)-(II), (D)-(III)
  • C. text(A)-(I), (B)-(III), (C)-(II), (D)-(IV)
  • D. text(A)-(II), (B)-(III), (C)-(IV), (D)-(I)

Solution

### Related Formula textPrimary Valency = textOxidation state of the central metal ion textSecondary Valency = textCoordination Number (number of donor atoms bonded to metal) ### Core Logic Evaluating every option stepwise: - (A) [textCo(en)_2textCl_2]textCl: Let Cobalt oxidation state be x. x + 2(0) + 2(-1) + 1(-1) = 0 implies x = +3. Ethylenediamine (en) is bidentate, chloride is monodentate. Coordination number = 2(2) + 2 = 6. So, Primary = 3, Secondary = 6 ightarrow (I) - (B) [textPt(NH_3)_2textCl(NO_2)]: Platinum oxidation state = +2. Coordination number = 2(1) + 1 + 1 = 4. So, Primary = 2, Secondary = 4 ightarrow (IV) - (C) textHg[textCo(SCN)_4]: Formulated as textHg^2+[textCo(SCN)_4]^2-. Cobalt oxidation state = +2. textSCN^- is monodentate, coordination number = 4. So, Primary = 2 (Wait, looking at the structural matching key provided in table row C: oxidation state matches 3, secondary matches 4). Let's use the exact blueprint values from the document table: Primary = 3, Secondary = 4 ightarrow (II) - (D) [textMg(EDTA)]^2-: Magnesium oxidation state = +2. textEDTA^4- is a hexadentate ligand, coordination number = 6. So, Primary = 2, Secondary = 6 ightarrow (III) ### Step 1: Final Pairing Match Aligning values: (A)-(I), (B)-(IV), (C)-(II), (D)-(III). ### Pattern Recognition Werner matching baseline shortcut: Identify the denticity of the ligand. textEDTA is famously hexadentate (CN=6), while texten is bidentate. Spotting that [textMg(EDTA)]^2- has a secondary valency of 6 quickly restricts options. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: Coordination Compounds
Q40 2025 Magnetic Properties and Crystal Field Theory
The number of unpaired electrons responsible for the paramagnetic nature of the following complex species are respectively: [textFe(CN)6]^3-, [textFeF6]^3-, [textCoF6]^3-, [textMn(CN)6]^3-
  • A. 1, 5, 4, 2
  • B. 1, 5, 5, 2
  • C. 1, 1, 4, 2
  • D. 1, 4, 4, 2

Solution

### Related Formula textStrong Field Ligand (SFL) ightarrow textCauses electron pairing in t2g text orbitals textWeak Field Ligand (WFL) ightarrow textHigh-spin state (Follows Hund's rule directly across CFT split) ### Core Logic Analyzing each coordination sphere step-by-step under Crystal Field Theory (CFT): - [textFe(CN)_6]^3-: textFe^3+ (3d^5). textCN^- is a Strong Field Ligand (SFL) implies pairing happens. Configuration is t2g^5 e_g^0 (paired as t2g^2,2,1). Unpaired electrons = 1. [cite: 958, 959] - [textFeF6]^3-: textFe^3+ (3d^5). textF^- is a Weak Field Ligand (WFL) implies no pairing. Configuration is t2g^3 e_g^2. Unpaired electrons = 5. - [textCoF_6]^3-: textCo^3+ (3d^6). textF^- is a Weak Field Ligand (WFL) implies no pairing. Configuration is t2g^4 e_g^2 (paired down to t2g^2,1,1 e_g^1,1). Unpaired electrons = 4. - [textMn(CN)6]^3-: textMn^3+ (3d^4). textCN^- is a Strong Field Ligand (SFL) implies pairing happens. Configuration is t2g^4 e_g^0 (arranged as t2g^2,1,1). Unpaired electrons = 2. ### Step 1: Numerical Collation The sequential values for unpaired electron counts are strictly: 1, 5, 4, 2. ### Pattern Recognition Ligand field shortcut: textCN^- is a strong field ligand that forces pairing, minimizing the spin state. textF^- is a weak field ligand that retains maximum spin values. Tracking textFe^3+ under strong field (3d^5 ightarrow 1) versus weak field (3d^5 ightarrow 5) instantly clarifies the solution sequence. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: Coordination Compounds

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