over 100 short question-and-answer pairs covering the essential concepts, procedures, and observations for identifying acidic (anions) and basic (cations) radicals:
Over 100 Short Q&A for Salt Analysis (Class 12 NCERT Lab Manual)
Part 1: Basic Concepts and Preliminary Tests
| Q. No. | Question | Answer |
| 1 | What are the two main parts of an inorganic salt analyzed in the lab? | Acidic Radical (Anion) and Basic Radical (Cation). |
| 2 | Why are preliminary tests important in salt analysis? | They provide clues about the presence or absence of certain radicals, saving time. |
| 3 | What is the purpose of preparing a Sodium Carbonate Extract (S.C.E.)? | To convert insoluble salts (like BaSO4) into soluble sodium salts for anion testing. |
| 4 | Why is Na2CO3 used for preparing the extract? | Na salts are almost all soluble in water. |
| 5 | What happens to the cation during the preparation of S.C.E.? | It forms a precipitate (e.g., BaCO3) which is removed by filtration. |
| 6 | What color is imparted to the flame by Na+? | Golden yellow. |
| 7 | What color is imparted to the flame by Ca2+? | Brick red. |
| 8 | What color is imparted to the flame by Ba2+? | Apple green. |
| 9 | What is the observation when a salt is heated in a dry test tube and H2O droplets condense? | Suggests the salt is a hydrated salt. |
| 10 | What does the evolution of brown fumes upon heating suggest? | Presence of Nitrate (NO3−) or Bromide (Br−) ions. |
Part 2: Anion Analysis (Acidic Radicals) - Group 1 (Dil. H2SO4)
| Q. No. | Question | Answer |
| 11 | What is the common group reagent for Group 1 anions? | Dilute Sulphuric Acid (Dil. H2SO4). |
| 12 | Name the four common anions belonging to Group 1. | CO32− (Carbonate), S2− (Sulphide), SO32− (Sulphite), NO2− (Nitrite). |
| 13 | What is the gas evolved when a carbonate salt reacts with dil. H2SO4? | CO2 (Carbon dioxide). |
| 14 | How is the CO2 gas confirmed? | It turns lime water milky (Ca(OH)2) due to the formation of CaCO3. |
| 15 | What is the gas evolved when a sulphide salt reacts with dil. H2SO4? | H2S (Hydrogen sulphide). |
| 16 | How is the H2S gas confirmed? | It turns lead acetate paper black (PbS) or sodium nitroprusside solution purple. |
| 17 | What is the gas evolved when a sulphite salt reacts with dil. H2SO4? | SO2 (Sulphur dioxide). |
| 18 | How is the SO2 gas confirmed? | It turns acidified KMnO4 solution colorless (decolorization). |
| 19 | What is the gas evolved when a nitrite salt reacts with dil. H2SO4? | Brown fumes of NO2 (Nitric dioxide) upon heating/exposure to air. |
| 20 | What is the final confirmatory test for S2−? | Sodium Nitroprusside Test (Purple/Violet color). |
Part 3: Anion Analysis - Group 2 (Conc. H2SO4)
| Q. No. | Question | Answer |
| 21 | What is the common group reagent for Group 2 anions? | Concentrated Sulphuric Acid (Conc. H2SO4). |
| 22 | Name the three common anions belonging to Group 2. | Cl− (Chloride), Br− (Bromide), I− (Iodide). |
| 23 | What gas is evolved when Cl− reacts with conc. H2SO4? | HCl (Hydrogen chloride - white fumes with NH3). |
| 24 | What is the confirmatory test for Cl− involving K2Cr2O7? | Chromyl Chloride Test (Red-brown vapors of CrO2Cl2 confirmed by yellow Na2CrO4). |
| 25 | What is the observation when Br− reacts with conc. H2SO4 and MnO2? | Reddish-brown vapors of Br2 (Bromine). |
| 26 | What is the observation when I− reacts with conc. H2SO4 and MnO2? | Violet vapors of I2 (Iodine). |
| 27 | What is the common confirmatory test for all halides (Cl−,Br−,I−) using S.C.E.? | Silver Nitrate (AgNO3) Test (formation of AgX precipitates). |
| 28 | What is the color and solubility in NH4OH of the AgCl precipitate? | White, soluble in dilute NH4OH. |
| 29 | What is the color and solubility in NH4OH of the AgBr precipitate? | Pale yellow, sparingly soluble in dilute NH4OH. |
| 30 | What is the color and solubility in NH4OH of the AgI precipitate? | Yellow, insoluble in NH4OH. |
| 31 | What is the specific test for Br− and I− using CCl4/CHCl3? | Layer Test (color of Br2 or I2 extracted into the organic layer). |
| 32 | What color does the CCl4 layer turn for Br−? | Brown/Orange. |
| 33 | What color does the CCl4 layer turn for I−? | Violet. |
Part 4: Anion Analysis - Group 3 (NO^3-,SO4^2-, PO4^3-,C2O4^2-
| Q. No. | Question | Answer |
| 34 | Which three anions are tested using S.C.E. because they do not react with H2SO4? | NO3− (Nitrate), SO42− (Sulphate), PO43− (Phosphate). |
| 35 | What is the name of the standard confirmatory test for NO3−? | Ring Test (Brown Ring Test). |
| 36 | What reagents are required for the Ring Test? | Ferrous Sulphate (FeSO4) solution and Concentrated H2SO4 (added carefully along the sides). |
| 37 | What is the compound responsible for the brown ring in the Ring Test? | Nitroso Ferrous Sulphate ([Fe(H2O)5NO]SO4). |
| 38 | What is the confirmatory test for SO42− using S.C.E.? | Barium Chloride (BaCl2) Test. |
| 39 | What is the observation in the BaCl2 test for SO42−? | Thick white precipitate of BaSO4 (insoluble in conc. HCl). |
| 40 | What is the confirmatory test for PO43−? | Ammonium Molybdate Test. |
| 41 | What is the observation in the Ammonium Molybdate Test for PO43−? | Canary yellow precipitate upon heating. |
| 42 | What is the confirmatory test for Oxalate (C2O42−) using S.C.E.? | CaCl2 Test (White precipitate of CaC2O4 soluble in dil. HCl). |
| 43 | What is the final confirmatory test for C2O42−? | KMnO4 Test (Oxalate reduces hot KMnO4 solution). |
| 44 | Which anion is confirmed by heating the salt with conc. H2SO4 and R-OH (alcohol)? | Acetate (CH3COO−) (Smell of fruity ester). |
| 45 | What is the common name for the test in the previous question? | Ester Test. |
Part 5: Cation Analysis (Basic Radicals) - Groups 0 to 3
| Q. No. | Question | Answer |
| 46 | What is the group reagent for Group 0 cations? | NaOH solution. |
| 47 | Name the only cation in Group 0. | NH4+ (Ammonium ion). |
| 48 | What is the gas evolved when NH4+ salt is heated with NaOH? | NH3 (Ammonia gas). |
| 49 | How is NH3 gas confirmed? | It turns Nessler's Reagent brown/reddish-brown. |
| 50 | What is the group reagent for Group 1 cations? | Dilute HCl. |
| 51 | Name the common cations belonging to Group 1. | Pb2+,Ag+,Hg22+ (Precipitate as chlorides). |
| 52 | What is the group reagent for Group 2 cations? | H2S gas in the presence of dil. HCl. |
| 53 | Name the common cations belonging to Group 2 (Cu2+,Cd2+,As3+,Pb2+). | They precipitate as Sulphides (insoluble in cold dilute acids). |
| 54 | What is the group reagent for Group 3 cations? | NH4OH in the presence of NH4Cl. |
| 55 | Name the common cations belonging to Group 3. | Al3+,Fe3+,Cr3+ (Precipitate as Hydroxides). |
| 56 | Why is NH4Cl added before NH4OH in Group 3 analysis? | To suppress the ionization of NH4OH (Common Ion Effect), preventing precipitation of higher groups (Mg2+,Ba2+). |
| 57 | What is the color of the Al3+ precipitate? | Gelatinous white precipitate (Al(OH)3). |
| 58 | What is the color of the Fe3+ precipitate? | Reddish-brown precipitate (Fe(OH)3). |
| 59 | What is the color of the Cr3+ precipitate? | Green precipitate (Cr(OH)3). |
| 60 | What is the confirmatory test for Fe3+ using K4[Fe(CN)6]? | Prussian Blue color/precipitate. |
| 61 | What is the confirmatory test for Al3+ using NaOH? | Al(OH)3 is soluble in excess NaOH (amphoteric nature). |
| 62 | What is the final confirmatory test for Cr3+? | Chromyl Chloride Test (after oxidation) or Lead Acetate Test (Yellow precipitate of PbCrO4). |
Part 6: Cation Analysis - Groups 4 to 6
| Q. No. | Question | Answer |
| 63 | What is the group reagent for Group 4 cations? | H2S gas in the presence of NH4OH/NH4Cl buffer. |
| 64 | Name the common cations belonging to Group 4. | Zn2+,Mn2+,Ni2+,Co2+ (Precipitate as Sulphides). |
| 65 | What is the color of the Zn2+ precipitate? | Dirty white precipitate (ZnS). |
| 66 | What is the color of the Mn2+ precipitate? | Buff/Flesh-colored precipitate (MnS). |
| 67 | What is the confirmatory test for Ni2+? | Dimethylglyoxime (DMG) Test (Rose-red precipitate). |
| 68 | What is the confirmatory test for Co2+? | Ammonium Thiocyanate Test (Blue color in organic layer). |
| 69 | What is the group reagent for Group 5 cations? | Ammonium Carbonate ((NH4)2CO3) in the presence of NH4OH/NH4Cl. |
| 70 | Name the common cations belonging to Group 5. | Ba2+,Sr2+,Ca2+ (Precipitate as Carbonates). |
| 71 | How are the Group 5 cations distinguished? | By Flame Test (distinct colors). |
| 72 | What is the group reagent for Group 6 cations? | No specific reagent; they are tested individually. |
| 73 | Name the common cation belonging to Group 6. | Mg2+ (Magnesium ion). |
| 74 | What is the confirmatory test for Mg2+? | Disodium Hydrogen Phosphate Test (Na2HPO4) (White precipitate of MgNH4PO4). |
| 75 | What is the color of the precipitate formed by Ba2+,Sr2+,Ca2+ with (NH4)2CO3? | White. |
Part 7: Conceptual and Mixed Problems
| Q. No. | Question | Answer |
| 76 | What is the key principle behind separating cation groups? | The difference in the solubility products (Ksp) of their salts. |
| 77 | Why is the concentration of S2− controlled by dil. HCl in Group 2 analysis? | To selectively precipitate only Group 2 sulphides (Ksp is low). |
| 78 | Why does Pb2+ belong to both Group 1 and Group 2? | PbCl2 is soluble in hot water, so some Pb2+ escapes to Group 2 where it precipitates as PbS. |
| 79 | What is the main reason for the yellow color of the K2CrO4 solution in the Chromyl Chloride Test? | CrO42− (Chromate ion). |
| 80 | What happens if NH4Cl is not added to the Group 3 test? | Mg(OH)2 (from Group 6) may also precipitate prematurely. |
| 81 | What is the effect of excess NH4OH on the Cu2+ precipitate in Group 2? | The CuS precipitate is insoluble, but Cu2+ forms a deep blue solution ([Cu(NH3)4]2+) on treatment with NH4OH after separation. |
| 82 | What happens to the BaCO3 precipitate when acetic acid is added? | It dissolves (BaCO3 reacts with the weak acid). |
| 83 | What is the confirmatory test for Cu2+ using K4[Fe(CN)6]? | Chocolate brown precipitate (Cu2[Fe(CN)6]). |
| 84 | Why are Group 5 carbonates soluble in acetic acid? | The carbonates are salts of a strong base and a weak acid, and are easily protonated. |
| 85 | Why is the Ring Test always performed with freshly prepared FeSO4? | Fe2+ is easily oxidized to Fe3+ upon standing, which interferes with the test. |
| 86 | What is the general procedure for testing a mixture of two basic radicals? | The radicals are separated sequentially by precipitation using group reagents. |
| 87 | What is the general procedure for testing a mixture of two acidic radicals? | Individual tests are performed, as separation is generally difficult. |
| 88 | What is the color imparted to the flame by K+? | Lilac/Violet. |
| 89 | What is the color imparted to the flame by Cu2+? | Bluish green. |
| 90 | What is the significance of the solubility of a salt in water? | Helps differentiate between AgCl and PbCl2 (Group 1); PbCl2 is soluble in hot water. |
| 91 | What is the reagent used to confirm $\text{Sulphite ($\text{SO}_3^{2-})$}$ by its reaction with BaCl2? | White precipitate of BaSO3, which dissolves in dil. HCl. |
| 92 | What are the necessary precautions when conducting the Ring Test? | Conc. H2SO4 must be added slowly along the wall of the test tube. |
| 93 | What is the white ppt formed in the confirmatory test for Mg2+? | Magnesium Ammonium Phosphate (MgNH4PO4). |
| 94 | Which Group 2 sulphide is confirmed by treating its yellow ppt with Yellow Ammonium Sulphide? | Arsenic Sulphide (As2S3). |
| 95 | What is the formula of the reagent used for the DMG test? | Dimethylglyoxime (C4H8N2O2). |
| 96 | Name the cation that gives a carmine red color in the flame test. | Sr2+ (Strontium ion). |
| 97 | What is the color change when FeSO4 solution is added to the NO2− test solution? | Dark brown/black color (immediate reaction). |
| 98 | Why are Group 5 salts precipitated as carbonates and not as sulphates? | Sulphates of Ba,Sr,Ca have very low Ksp and would precipitate Pb2+,Hg2+ etc., from previous groups. |
| 99 | What is the purpose of performing the Microcosmic Salt Bead Test (or Borax Bead Test)? | A preliminary test for colored basic radicals (Ni2+,Co2+,Cr3+). |
| 100 | Why is the Group 6 cation analysis often done only after ensuring all previous groups are absent? | Group 6 contains Mg2+, which has a high solubility product and can be mistaken for other groups if reagents are not carefully controlled. |
| 101 | What color is obtained when MnO2 is heated with conc. H2SO4? | Cl2 gas (Greenish-yellow gas). |
| 102 | What is the primary function of the Charcoal Cavity Test? | To detect the presence of easily reducible basic radicals (Pb2+,Ag+,Cu2+). |
| 103 | What is the final step in confirming Zn2+ after forming ZnS precipitate? | ZnS precipitate is dissolved in dil. HCl and confirmed by K4[Fe(CN)6] (White or Bluish-White precipitate). |
| 104 | What are the possible interfering anions in Group 3 analysis? | Oxalate (C2O42−) and Phosphate (PO43−), which can precipitate Ba,Sr,Ca etc. prematurely. |
| 105 | How are interfering anions like Phosphate removed? | By adding conc. HNO3 and heating with (NH4)2MoO4 or forming AlPO4 precipitate. |
| 106 | Why should the original salt solution always be used for confirmatory tests whenever possible? | To avoid contamination from group reagents. |
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