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The molar mass of the water insoluble product formed from the fusion of chromite ore mathrm(FeCr_2O_4) with mathrmNa_2mathrmCO_3 in presence of mathrmO_2 is ________ mathrmg \, mol^-1.

Numerical Answer Type:
Enter a numerical value Answer: 160 to 160 +4 marks

Solution & Explanation

### Related Formula textBalanced fusion reaction process description ### Core Logic Write the balanced chemical equation for the industrial preparation stage of chromate salts : 4mathrmFeCr_2O_4 + 8mathrmNa_2CO_3 + 7mathrmO_2 ightarrow 8mathrmNa_2CrO_4 + 2mathrmFe_2O_3 + 8mathrmCO_2 Evaluating the solubilities of the products: * mathrmNa_2CrO_4 is highly soluble in water. * mathrmFe_2O_3 (Iron(III) oxide) is water-insoluble . Molar Mass of mathrmFe_2O_3 : M = (2 cdot 55.85) + (3 cdot 16.0) simeq (2 cdot 56) + (3 cdot 16) = 112 + 48 = 160 \, mathrmg/mol ### Pattern Recognition Transition metal oxides in high oxidation states with minimal ionic breakdown parameters reliably act as insoluble precipitates in water. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: The d-and f-Block Elements

Reference Study Guides

More The d-and f-Block Elements Previous-Year Questions — Page 2

Q47 2025 Chemical Properties of KMnO4
KMnO_4 acts as an oxidising agent in acidic medium. 'X' is the difference between the oxidation states of Mn in reactant and product. 'Y' is the number of 'd' electrons present in the brown red precipitate formed at the end of the acetate ion test with neutral ferric chloride. The value of X + Y is ______.
Numerical Answer. Answer: 10 to 10

Solution

### Core Logic Let's resolve both components step by step: 1. **Finding X:** In an acidic medium, the permanganate ion (KMnO_4, where Mn is in the +7 state) is reduced to the divalent manganese cation (Mn^2+, state +2): X = 7 - 2 = 5 2. **Finding Y:** During qualitative salt analysis, the acetate ion reacts with neutral ferric chloride to produce a characteristic blood-red coordination solution. Boiling this solution throws down a **brown-red precipitate** of basic ferric acetate, [Fe(OH)_2(CH_3COO)]. In this complex, Iron retains its +3 oxidation state: Fe^3+ implies [Ar] 3d^5 4s^0 implies textNumber of d-electrons (Y) = 5 Summing the values yields: X + Y = 5 + 5 = 10 ### Pattern Recognition This problem elegantly links standard redox transitions with qualitative inorganic salt tests. Remember that throughout the basic ferric acetate precipitation test, Iron remains steadily in its ferric +3 (d^5) core configuration. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: The d- and f-Block Elements Inorganic Qualitative Analysis
Q35 2025 Magnetic Properties of Transition Metals
Match List-I with List-II.
List-I (Transition metal ion)List-II (Spin only magnetic moment (B.M.))
(A) mathrmTi^3+(I) 3.87
(B) mathrmV^2+(II) 0.00
(C) mathrmNi^2+(III) 1.73
(D) mathrmSc^3+(IV) 2.84
Choose the correct answer from the options given below :
  • A. \text{(A)-(III), (B)-(I), (C)-(II), (D)-(IV)}
  • B. \text{(A)-(III), (B)-(I), (C)-(IV), (D)-(II)}
  • C. \text{(A)-(IV), (B)-(II), (C)-(III), (D)-(I)}
  • D. \text{(A)-(II), (B)-(IV), (C)-(I), (D)-(III)}

Solution

### Related Formula mu = sqrtn(n+2) text B.M. where n represents the number of unpaired electrons. ### Core Logic Let's calculate the number of unpaired d-electrons (n) and the resulting spin-only magnetic moment for each transition metal ion: * (A) mathrmTi^3+: Electronic configuration = [Ar] 3d^1 ightarrow n = 1 mu = sqrt1(1+2) = sqrt3 approx 1.73text B.M. ightarrow text(III) * (B) mathrmV^2+: Electronic configuration = [Ar] 3d^3 ightarrow n = 3 mu = sqrt3(3+2) = sqrt15 approx 3.87text B.M. ightarrow text(I) * (C) mathrmNi^2+: Electronic configuration = [Ar] 3d^8. The 3d subshell has 3 paired orbitals and 2 unpaired orbitals ightarrow n = 2 mu = sqrt2(2+2) = sqrt8 approx 2.84text B.M. ightarrow text(IV) * (D) mathrmSc^3+: Electronic configuration = [Ar] 3d^0 ightarrow n = 0 mu = 0.00text B.M. ightarrow text(II) Matching these values yields the sequence: (A)-(III), (B)-(I), (C)-(IV), (D)-(II). ### Pattern Recognition Shortcut: The digit before the decimal point in a spin-only magnetic moment matches the number of unpaired electrons (n). For example, a value of 3.87text B.M. means there are exactly 3 unpaired electrons. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: The d- and f-Block Elements
Q31 2025 Lanthanoids Oxidation States
Which of the following ions is the strongest oxidizing agent? [Atomic Number of Ce=58, Eu=63, Tb=65, Lu=71]
  • A. Lu^3+
  • B. Eu^2+
  • C. Tb^4+
  • D. Ce^3+

Solution

### Core Logic The most common and chemically robust oxidation state for lanthanoid elements is +3. Consequently, ions existing in unstable +4 oxidation states exhibit a pronounced thermodynamic driving force to capture electrons and revert to the +3 form. Among the options, Tb^4+ acts as a potent oxidizing agent due to this stability drive. ### Pattern Recognition Ln^4+ forms naturally act as electron grabbers to sink back into the thermodynamic sweet spot of +3 states. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: The d-and f-Block Elements
Q37 2025 Preparation and Properties of Potassium Permanganate
Preparation of potassium permanganate from mathrmMnO_2 involves two step process in which the 1^textst step is a reaction with KOH and mathrmKNO_3 to produce
  • A. mathrmK_4[mathrmMn(mathrmOH)_6]
  • B. mathrmK_3mathrmMnO_4
  • C. mathrmKMnO_4
  • D. mathrmK_2mathrmMnO_4

Solution

### Related Formula 2MnO_2 + 4KOH + O_2 xrightarrowKNO_3 2K_2MnO_4 + 2H_2O ### Core Logic The standard preparation of potassium permanganate begins with the oxidative fusion of pyrolusite ore (MnO_2). Fusing the solid reactant directly along an alkaline base payload (KOH) combined explicitly with an oxidizing carrier (KNO_3) yields the intermediate green product, **potassium manganate** (K_2MnO_4). ### Pattern Recognition Step 1 yields the +6 green compound (K_2MnO_4); the subsequent Step 2 steps oxidize this intermediate to synthesize the target deep purple +7 agent (KMnO_4). ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: The d-and f-Block Elements
Q36 2025 Melting Points of Transition Elements
The correct option with order of melting points of the pairs (Mn, Fe), (Tc, Ru) and (Re, Os) is :
  • A. mathrmFe < mathrmMn , mathrmRu < mathrmTc and mathrmRe < mathrmOs
  • B. mathrmMn < mathrmFe, mathrmTc < mathrmRu and mathrmRe < mathrmOs
  • C. mathrmMn < mathrmFe, mathrmTc < mathrmRu and mathrmOs < mathrmRe
  • D. mathrmFe < mathrmMn , mathrmRu < mathrmTc and mathrmOs < mathrmRe

Solution

### Related Formula textMelting Point trends in 3d, 4d, and 5d series transition metals ### Core Logic According to the official NCERT transition elements structural profile trends : * In the 3d series, Manganese (mathrmMn) has an unexpectedly low melting point relative to Iron (mathrmFe) due to its stable half-filled d^5 configuration, which restricts metallic bonding options ightarrow mathrmMn < mathrmFe . * In the 4d series, Technetium (mathrmTc) similarly exhibits a lower melting point drop compared to Ruthenium (mathrmRu) ightarrow mathrmTc < mathrmRu . * In the 5d series, Rhenium (mathrmRe) displays a higher melting point relative to Osmium (mathrmOs) due to optimal effective nuclear charge constraints ightarrow mathrmOs < mathrmRe . Combining these standard physical periodic entries yields option (3). ### Pattern Recognition The half-filled d^5 configuration introduces localized stability spikes that lower metallic bond cohesion dramatically for mathrmMn and mathrmTc, creating distinct periodic deep dips in their melting point curves. ### Evaluation Rubric / Model Answer null ### Chapter Mix Class 12 Chemistry: The d-and f-Block Elements

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