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This section includes 7 InterviewSolutions, each offering curated multiple-choice questions to sharpen your Current Affairs knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
In alkene structure, three carbon atoms are joined by |
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Answer» THREE `pi`- bonds only |
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| 2. |
In alkaline medium which of the following oxyanion can oxidize I^(-)(aq). |
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Answer» `Cr_(2)O_(7)^(2-)` 
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| 4. |
In alkaline medium, KMnO_(4) gets changed into : |
| Answer» Answer :B | |
| 5. |
In alkaline medium KMnO_4 can be converted into MnO_3. The decreas in oxidation sate in n so equivalent mass of KMnO_(4) = ("Molar mass")/(n),what is n ? |
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Answer» |
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| 6. |
In alkaline medium fructose is - |
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Answer» An ALDOSE |
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| 7. |
In alkaline medium, alanine exists predominantly as |
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Answer» Anion |
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| 8. |
In alkaline hydrolysis of tert-Butyl bromide, _________. |
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Answer» RATE of reaction is doubled as the concentration of the substrate is doubled |
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| 9. |
In alkaline medium KMnO_(4) reacts as follows, 2KMnO_(4)+2KOHto2K_(2)MnO_(4)+H_(2)O+O . Therefore its equivalent weight will be |
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Answer» `158.0` |
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| 10. |
In alkaline condition KMnO_(4) reacts as follows : 2KMnO_(4)+2KOH to 2K_(2)MnO_(2) +H_(2)O +Othe eq.wt of KMnO_(4) is |
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Answer» `52.7` |
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| 11. |
In alkali metal group which is the strongest reducing agnet and why? |
| Answer» Solution :Li is the STRONGEST REDUCING agent. Since I.P. DECREASES down the group we would EXPECT that Li will have the lowest reducing power in that group. But since it.s hydration energy is very high and which in FACT decreases down the group, Li will have highest reducing power, | |
| 12. |
In aldehydes and ketones |
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Answer» CARBONYL CARBON is NUCLEOPHILIC and carbonyl OXYGEN is electrophilic |
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| 13. |
In aldehydes and ketones, carbon of carbonyl group is |
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Answer» `sp^(3)` hybridised |
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| 14. |
In alkalin solution D-glucose, D-mannose and D-fructose are in equilibrium. This reaction is known as |
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Answer» FRIES rearrangement |
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| 15. |
In AgBr crystal, theion size lies in the order Ag^(+) lt lt Br^(-). The AgBr crystal exhibit, in which of the following defect? |
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Answer» DEFECT LESS (PERFECT) crystal |
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| 16. |
In AgBr, there can occur : |
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Answer» SCHOTTKY DEFECT |
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| 17. |
In adsorption, if the concentration of a substance in the interface is high, it is called ............. |
| Answer» SOLUTION :POSITIVE ADSORPTION | |
| 18. |
In adsorption of acetic acid on charcoal, the acetic acid is: |
| Answer» Answer :A | |
| 19. |
In adsorption of oxalic acid on activated charcoal, the activated charcoal is called |
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Answer» Adsorbent |
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| 20. |
In adiabatic conditions 1 mole of CO_(2) gas at 300 K is expanded such that its volume becomes 27 times. Calculate the work done. (C_(V)=6" cal "mol^(-1) and gamma=1.33 is given) |
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Answer» 1400 cal `(T_(2))/(T_(1))=((1)/(27))^(1.33-1)=((1)/(27))^(0.33)=((1)/(27))^(1//3)=(1)/(3)` `T_(2)=300xx(1)/(3)=100K` Thus, `T_(2) lt T_(1)` hence cooling TAKES place due to EXPANSION under adiabatic CONDITION `DeltaE=q+W` `DeltaEneW`(q=0 for adiabatic change) `DeltaE=-ve` because gas exapands. `W=-DeltaE=-C_(V)(T_(2)-T_(1))` `=-6(100-300)=1200" cal "mol^(-1)` |
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| 21. |
In addition to the standard ring systems (such as cyclohexane), cyclic compounds can also be bicyclic, tricyclic, etc., or they can be spirocyclic, bicyclic or bridge head carbons. The point of attachment of two rings are called bridge head carbons. The point of attachment of two rings are called bridge head atoms Some bicyclic compounds like camphor are commonly found in plants. Others like norbornane can be synthesized in the laboratory. The formal names of of bicyclic and related ring systems are based on : (1) Total number of atoms in the molecule. (2) The number of atoms in each bridge connecting the bridge head atoms. These numbers are written in square bracket in decreasing order. Spirocyclic compounds have two fused rings, but only one bridge head atom. Spirocyclic compounds are named like bicyclic compounds, but have the prefix spirocyclo. Answer the following questions : Which of the following is the correct structure of bicyclo [1.1.0] butane ? |
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Answer»
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| 22. |
In addition polymer monomer used is |
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Answer» UNSATURATED COMPOUNDS |
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| 23. |
In acidic solution, KMnO_(4)is reduced to |
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Answer» `MN^(2+)` |
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| 24. |
In acidic solution an amino acid, when placed in an electric field ________. |
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Answer» MOVES towards cathode |
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| 25. |
In acidic medium Zn reduces nitrate ion ot NH_(4)^(+) ion according to the reaction underset("(unbalanced)")(Zn+NO_(3)^(-))rarrZn^(2+)+NH_(4)^(+)+H_(2)O How many moles of HCl are required to reduce half a mole of NaNO_(3) completely? Assume the availability of sufficient Zn. |
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Answer» 5 |
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| 26. |
In acidic medium, which of the following becomes colourless ? |
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Answer» `FeO_(4)^(2-)` |
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| 27. |
In acidic medium, the reaction, MnO_4^(1-) rarr Mn^(2+) involves : |
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Answer» OXIDATION by 3 ELECTRONS |
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| 28. |
In acidic medium, the rate of reaction between BrO_(3)^(-) and Br^(-) is given by the expression -(d[BrO_(3)^(-)])/(dt)=k[BrO_(3)^(-)][Br^(-)][H^(+)]^(2) It means |
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Answer» Rate CONSTANT of the REACTION DEPENDS upon the concentration of `H^(+)` ions. |
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| 29. |
In acidic medium the rate of reaction between(BrO_3)^- and Br^- ions is given by the expression.-(d(BrO_3^-))/dt=K[BrO_3^-][Br^-][H^+]^2 It means: |
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Answer» RATE constant of overall reaction is` 4 sec^-1` |
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| 30. |
In acidic medium the rate of reaction between [BrO_(3)^(-)] and [Br^(-)] ions given by the expression - (d[BrO_(3)^(-)])/(dt) = k [BrO_(3)^(-)][Br^(-)][H^(+)]^(2) It means (i) rate of constant of the reaction depends upon the concentration of H^(+) ions (ii) rate of reaction is independent of the concentration of acid added (iii) the change in pH of the solution will affect the rate of reaction (iv) doubling the concentration of H^(+) ions will increase the reactions rate by 4 items. |
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Answer» only (ii) (iii)is correct because change in pH means change in `[H^(+)]` ions (iv) is correct because rate `prop [H^(+)]^(2)` |
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| 31. |
In acidic medium the rate of reaction between (BrO_(3))^(-) and Br^(-) ions is given by the expression -(d(BrO_(3)^(-)))/(dt)=k[BrO_(3)^(-)][Br^(-)][H^(+)]^(2) it means |
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Answer» RATE CONSTANT of overall reaction is 4 `sec^–1` |
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| 32. |
In acidic medium, the equivalent weight of K_(2)Cr_(2)O_(7)(molecular weight = M) is |
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Answer» M Reaction involved is `Cr_(2)O_(7)^(2-) + 14H^(+) + 6e^(-) to 2Cr^(3+) + 7H_(2)O` It is quite clear that in this reaction, `Cr(+6)` is reduced to `Cr(+3)`. `therefore` Equivalent weight of `K_(2)Cr_(2)O_(7) = ("MOL. wt")/6 = M/6` |
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| 33. |
In acidic medium, permanganate is reduced to Mn^(2+) by excess of reducing agent as MnO_4-+8H^+5e Mn_(2+) +4H_2O.Therefore, the equivalent mass of KMnO_4 is obtained on dividing its nolecular mass by : |
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Answer» 8 |
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| 34. |
In acidic medium " MnO"_(4)^(-) is an oxidising agent as " MnO"_(4)^(-) +8H^(+)+5e^(-) rarr Mn^(2+)+4H_(2) O. If H^(+) concentration is doubled, electrode potential of the half-cell " MnO"_(4)^(-)// " Mn"^(2+), Pt will : |
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Answer» INCREASE by `28.46` m V |
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| 35. |
In acidic medium, KMnO_(4) oxidises FeSO_(4) solution. Which of the following statements is correct? |
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Answer» 10 ml of 1 N `KMnO_4` solution oxidises 10 ml of 5 N `FeSO_4` solution One mole of `KMnO_(4)` oxidises five moles of `FeSO_(4)` i.e. 1 M `KMnO_(4)` can oxidise equal amount of 5M `FeSO_(4)`. |
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| 36. |
In acidicmedium, MnO_(4)^(2-) |
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Answer» disproportionates to `MnO_(2)`to `MnO_(4)^(-)` `3MnO_(4)^(2-) + 4H^(+) RARR 2MnO_(4)^(-) + MnO_(2) + 2H_(2)O` |
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| 37. |
In acidic medium KMnO_(4) oxidises FeSO_(4) solution. Which of the following statements is correct? |
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Answer» 10 mL of 1 N `KMnO_(4)` solution oxidises 10 mL of 5 N `FeSO_(4)` solution `therefore 10xx1M-=10xx5N-=10xx5N)` `KMnO_(4)""KMnO_(4)""FeSO_(4)` |
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| 38. |
In acidic medium, KMnO_4 oxidises FeSO_4 solution. Which of the following statements is correct? |
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Answer» 10 mL of 1 N `kMnO_4` solution OXIDISES 10 mL of 5 N `FeSO_4` solution. ONE mole of `KMnO_4` oxidises five mole of `FeSO_4` i.e. 1M `KMnO_4` can oxidise equal amount5 of 5 M `FeSO_4`. |
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| 39. |
In acidic medium if potassium permanganate is used as an oxidising agent, we get : |
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Answer» `MnO_(4)^(2-)` |
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| 40. |
In acidic medium , H_(2)O_(2) changes sigmaCr_(2)O_(7)^(2-) to CrO_(5)which has two ( -O-O-) bonds . Oxidation state of Cr in CrO_(5) is |
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Answer» `+5`  OXIDATION state of peroxo oxygen `= -1` `:. `If oxidation state of Cr is x, then `x+ 4 ( -1) + 1( - 2) = 0` or `x= + 6` |
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| 41. |
In acidic medium, dichromate ion oxidises ferrous ion to ferric ion. If the gra molecular weight of potassium dichromate is 294 grams, its gra equivalent weight is . . . . Grams |
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Answer» 294 |
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| 42. |
In acidic medium, CrO_(4)^(2-) changes to |
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Answer» `Cr_(2)O_(7)^(2-)` `UNDERSET("Yellow")(2CrO_(4)^(2-))+2H^(+)rarrunderset("ORANGE")(Cr_(2)O_(7^(2-)))+H_(2)O` |
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| 43. |
In acid solution, the reaction MnO_(4)^(-) rarr Mn^(2+) involves |
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Answer» OXIDATION by 3 ELECTRONS `MnO_(4)^(-)+5e^(-) rarr Mn^(2+)`. |
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| 44. |
In acid medium, potassium permanganate oxidizes oxalic acid to |
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Answer» oxalate |
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| 45. |
In acid leaching process, the insoluble sulphide is converted into soluble sulphate and elemental _______. |
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Answer» carbon |
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| 46. |
In acid catalysed hydration of alkenes, reaction intermediate formed is |
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Answer» FREE radical |
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| 47. |
In acid base titration using the above mentioned acids100mL M/10NaOHis used which of the following is correct ? |
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Answer» `5XX10^(-3)` MOLES of `H_(2)C_(2)O_(4)` this can neutralise` to` 5mmol es of `H_(2)C_(2)O_(2)` or 5mmoles of `H_(2)SO_(4)` |
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| 48. |
In acetylene molecule, the two carbon atoms are linked by |
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Answer» one sigma bond and two pi bonds |
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| 49. |
In acetylene molecule, between the carbon atoms there are |
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Answer» three pi bonds `therefore` Number of `sigma` bonds = 1 Number of `pi` bonds = 2 `therefore (1 sigma + 2pi)` bonds are present between 2 carbon atoms. |
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| 50. |
In acetylationof aminesone ormorehydrogenatoms are removedform |
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Answer» CARBONATOM only |
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