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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. |
Molecular formula C_(4)H_(4)O_(4) can have four isomers A,B,C and D: A is dicarboxylic acid giving racemic tartaric acid with alk. B is dicarboxylic acid giving meso tartaric acid with alk. KMnO_(4). C is also dicarboxylic acid giving another monobasic acid on heating. D is cyclic ester Identify A ,B, C andD |
Answer» SOLUTION :
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| 2. |
Molecular formula C4H_10O has ........ isomeric ethers , |
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Answer» 4 |
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| 3. |
Molecular formula C_(3)H_(6)O_(2) on acid hydrolysisgives A and B. The compound 'A' reduce Tollens reagent. The possible structure of C_(3)H_(6)O_(2) will be |
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Answer» `CH_(3)- CH_(2) - COOH` |
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| 4. |
Molecular formula C_(3)H_(9)N canshown. (1) chain isomerism (2) positionisomerism (3) functionalisomerism (4) metamerism . |
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Answer» 1,3 `CH_(3) - CH_(2) - NH_(2)and CH_(3) underset(NH_(2)) underset(|)(CH)- CH_(3)`arepositionisomers. `1^(@),2^(@),3^(@)`- AMINES are functional isomers. |
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| 5. |
Molecular formula C_4H_10O exhibits |
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Answer» CHAIN isomerism |
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| 6. |
Molecular formula C_(3)H_(6)O_(2) have two structures A & B. Structure A releases CO_(2) gas with NaHCO_(3) but B does not. Compound B is fruity smelling liquid. Write the structures & IUPAC name of A and B. |
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Answer» |
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| 7. |
Molecular formula C_(3)H_(6)O represents |
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Answer» ALDEHYDES |
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| 8. |
Molecular formula C_(2)H_(7)N represents |
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Answer» `2^(0) and 3^(0)`AMINES |
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| 9. |
Molecularformula C_(2)H_(7)N showswhich typesof isomerism ? |
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Answer» POSITION |
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| 10. |
Molecular formula C_3H_3O shows |
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Answer» chain and OPTICAL isomers |
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| 11. |
Molecular formula C_2H_6O shows |
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Answer» FUNCTIONAL isomerism |
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| 12. |
Molecular formula C_2H_6O represents |
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Answer» alcohols and acids |
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| 13. |
Molecular formula C_(2)H_(4)O_(2) shows |
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Answer» CHAIN ISOMERISM |
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| 14. |
Molecular formula C_(2)H_(4)O_(2) represents |
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Answer» ACIDS |
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| 15. |
Molecular formula 'A' (C_94)H_(8)O) reacts with CH_(3)MgI gives 3- methyl 2-butanol . The structure of A is |
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Answer» `CH_(3)CH_(2)CH_(2)CHO` |
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| 16. |
Molecular formula and empirical formula are related as : |
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Answer» `("Molecular FORMULA")/("EMPIRICAL formula")=`Atomicity |
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| 17. |
Molecular formual C_(2)H_(7)Nshownwhichtypeofisomerism ? |
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Answer» 1 |
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| 18. |
Molecular forces that bind polymer chains are __________. |
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Answer» dipole-dipole interaction |
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| 19. |
Molecuels ions and their magnetic properties are given below {:("Molecular/ion","Magnetic property"),(C_(6)H_(6),"Antiferromagnetic"),(CrO_(2),"Ferrimagnetic"),(MnO,"Ferromagnetic"),(Fe_(3)O_(4),"Paramagnetic"),(Fe^(3+),"Diamagnetic"):} The correctly matched pairs in the above is |
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Answer» i-5,ii-3iii-2,iv-1,v-4 `CrO_(2)` is FERROMAGNETIC (ii-3) `MnO` is antiferromagnetic (iii-1) `Fr_(3)O_(4)` is FERRIMAGNETIC (iv-2) `FE^(3+)` is PARAMAGNETIC with 5 unpaired electrons (v-4). |
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| 20. |
Molecular folmula of salvarsan is |
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Answer» `C_(11)H_(11)N_(3)O_(2)S` |
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| 21. |
Molecular crystals exist in: |
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Answer» CRYSTALLINE state |
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| 22. |
Molecular association is highes in |
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Answer» n-propyl AMINE |
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| 23. |
Molecular attraction and size of the moleculesin a gas are negligible at : |
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Answer» CRITICAL point |
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| 24. |
Molecuar formula of chloroxylenol is |
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Answer» `C_(10)H_(18)O` |
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| 25. |
Molecualar formula of prontosil is |
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Answer» `C_(11)H_(11)N_(3)O_(2)S` |
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| 26. |
Molecualarformula C_(4)H_(11)N |
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Answer» chainisomerism |
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| 27. |
Molecluar foumula of BHA is |
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Answer» `C^(15)H^(24)O` |
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| 28. |
Mole fracton of helium in a saturated solution at 20^(@)C is1.2xx10^(-6). Find out the pressure of helium above the solution. Given that at 20^(@)C, Henry's Law Constat (k_(H))=144.97 K bar. |
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Answer» |
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| 29. |
Mole of Chlorobenzene and bromo benzene is 0.1 and 0.2 respectively. The vapour pressure of chlorobenzene and bromo benzen is 0.350 bar and 0.500 bar respectively. So find out total vapour pressure of solution prepared by mixing of chlorobenzene and bromo benzene. |
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| 30. |
Mole fration of a solute in 2.0 molal aqueous solutions is : |
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Answer» 1.77 `"No, of moles of solute"(n_(B))=2 MOL` `"No. of MOELS of WATER"(n_(A))=((1000g))/((18g mol^(-1)))` =55.55 mol `X_(B)=((2 mol))/((57.55 mol))=0.0347` |
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| 31. |
Mole fraction of x M aqueous urea solution is : [Given : density of solution is d gm//ml ] |
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Answer» `(18x)/(1000d - 42 x)` mass of solution = 1000 d gm mass of solute `60 x gm` mass of solvent `= (1000d - 60x) gm` MOLE fracction of urea `= (x)/(x + ((1000d - 60x)/(18)))` `= (18x)/(18x + 1000d - 60x)` `x_("urea") = (18x)/(1000d - 42X)` |
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| 32. |
Mole fraction of solute in some solution is 1//n . If 50% of solute molecules dissociate into two parts and remaining 50% get dimerised , new mole fraction of solvent becomes 4//5 . Find value of n.29. 0.1 M KI and 0.2 M are mixed in 3:1 volume ratio. The depression in freezing point of the resulting solution will be 0.1 x (Assume K_(f) of and molality =molarity). Then x=_________ |
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| 33. |
Molefractionof urea in itsaqueous solution is 0.25 .Whatis themassof ureapresentin 200 gureasolution? (Molecularmass of ureais 60 g mol^(-1)) |
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Answer» Mass ofureain 200 gsolution = ? Molefractionof water= 1- 0.25 =0.75 Massof urea= 0.25 `xx 60 =15 g` Massof water= 0.75 `xx 100= 75 g` `:.` Massof solution= 15+75 = 90 g `:.` 90 g solutioncontains15 gurea `:.200`g solutionwillcontain `(200 xx 15)/(90) ` = 33.33 g urea |
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| 34. |
Mole fraction of nitrogen in air is |
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Answer» 0.14 |
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| 35. |
Mole fraction of K_(2)CO_(3) in a mixture of K_(2)CO_(3) and KHCO_(3) is 0.5. What will be the volume of 0.1 N HCl required to neutralize 1.252 g of the mixture? |
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Answer» Solution :As MOLE fraction of `K_(2)CO_(3)` is 0.5, this mean the mixture contains equal number of moles of `K_(2)CO_(3)` and `KHCO_(3)`. Suppose no. of moles of each is x. `"No. of g eq. in x moles of "K_(2)CO_(3)=2X.` `"No. of g eq. in x moles of "KHCO_(3)=x` `"Total g equivalents of "K_(2)CO_(3) and KHCO_(3)=2x+x=3X` Suppose volume of 0.1 N HCl REQUIRED to neutralize the mixture = V mL `therefore"No. of g equivalents present in V mL of 0.1 HCl "=(0.1 xxV)/(1000)"g eq."` As acids and bases are neutralized in equivalent amounts, `3x=(0.1xxV)/(1000) or V=3xx10^(4)x` `"Molecular mass of "K_(2)CO_(3)=2xx39+12+48=138` `"Molecular mass of "KHCO_(3)=39+1+12+48=100` `therefore x" mole of "K_(2)CO_(3)="138x gandx moles of "KHCO_(3)=100xg` `therefore 138x+100x=1.252 or x=(1.252)/(238)=5.26xx10^(-3)` `therefore V=3xx10^(4)xx5.26xx10^(-3)=157.8mL` |
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| 36. |
Mole fraction of glucose in 18% (wt./wt.) solution of glucose is |
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Answer» 0.18 :. WATER = 100-18=82g MOLE freaction of glucose `=(18//180)/(18//180+82//18` `=0.1/(0.1+4.56)=0.1/4.66=0.021 |
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| 37. |
Mole fraction of acetic acid in benzene given a solution having freezing point 277.4K. Freezing point of benzene is 278.4K and heat of fusion of benzene is 10.042 kJ/mol. If molarity of solution is equal to molality, and acetic acid is found in equilibrium with it dimmer, than answer the following based upon above data. Calculate the equilibrium constant for dimerisation fo acetic acid. |
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Answer» 3.39 |
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| 38. |
Mole fraction of acetic acid in benzene given a solution having freezing point 277.4K. Freezing point of benzene is 278.4K and heat of fusion of benzene is 10.042 kJ/mol. If molarity of solution is equal to molality, and acetic acid is found in equilibrium with it dimmer, than answer the following based upon above data. The degree of association according to above data acetic acid should be |
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Answer» 0.6 |
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| 39. |
Mole fraction of acetic acid in benzene given a solution having freezing point 277.4K. Freezing point of benzene is 278.4K and heat of fusion of benzene is 10.042 kJ/mol. If molarity of solution is equal to molality, and acetic acid is found in equilibrium with it dimmer, than answer the following based upon above data. what should be the molality of the solution formed |
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Answer» 0.462m |
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| 40. |
Mole fraction of acetic acid in benzene given a solution having freezing point 277.4K. Freezing point of benzene is 278.4K and heat of fusion of benzene is 10.042 kJ/mol. If molarity of solution is equal to molality, and acetic acid is found in equilibrium with it dimmer, than answer the following based upon above data. K_(f) for benzene is |
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Answer» 3K `XX` molality |
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| 41. |
Mole fraction of a solute in 2.5 molal aqueous solution is: |
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Answer» 0.43 |
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| 42. |
Molarity of H_(2)SO_(4) is 0.8 M and its density os 1.06 g//cm^(3). What will be the concentration in terms of molality and molar fraction? |
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Answer» `"Mass of "H_(2)SO_(4)="No. of MOLES"xx"Moles mass"` `=(0.8"mol")xx(98.0" G mol"^(-1))=78.4 g` `"Mass of 1 L solution"=(1000cm^(3))xx(1.06" g cm"^(-3))=1060 g` `"Mass of water in solution"=(1060-78.4)=981.6 g= 0.9816 kg` `"Molality of solution (m)"=("No. of moles of "H_(2)SO_(4))/("Mass of water in kg")=((0.8"mol"))/((0.9816" kg"))` `=0.815" mol kg"^(-1)=0.815 m` `"Mole fraction of"H_(2)SO_(4)=n_(H_(2)SO_(4))/(n_(H_(2)SO_(4))+n_(H_(2)O))` `=((0.8mol))/((0.8mol)+((98.6g))/(18" g mol"^(-1)))=0.8/(0.8+54.5)=0.8/55.3=0.014` |
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| 44. |
Molarity of the liquid HCl if density of the solution is 1.17 g/cc is |
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Answer» 36.5 |
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| 46. |
Molarity of H_(2)SO_(4) is 0.8 and its density is "1.06 g/cm"^(3). What will be its concentration in terms of molality and mole fraction ? |
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Answer» Solution :Molarity of `H_(2)SO_(4)=0.8` MEANS 0.8 MOLE `H_(2)SO_(4)` are present in 1 L of the solution `"0.8 mole "H_(2)SO_(4)=0.8xx98 g = 78.4g,"1 L "H_(2)SO_(4) " solution "=1000xx1.06g=1060 g` `THEREFORE"Mass solvent (water )"=1060-78.4 g = 981.6g=(981.6)/(18)" moles"="54.53 moles"` Thus, 981.6 g of water contain 0.8 mole of `H_(2)SO_(4)`. `therefore"Molality "=("0.8 mol")/("981.6 g")xx"1000 g kg"^(-1)="0.815 mol kg"^(-1)` Further, the solution contains 0.8 mole of SOLUTE in 54.53 moles of solvent. `therefore"Mole FRACTION of solute"=(0.8)/(0.8+54.53)=0.014` |
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| 47. |
Molarity of aqueous glucose (C_(6)H_(12)O)^(6) will be, if mole fraction of glucose is 0.4. |
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Answer» 10M `n_(H_(2)O)=0.6rArrW_(H_(w)O)=0.6xx18=18.8` `W_("solution")=72+10.8=82.8gm` `d_("solution")=(82.8)/(V_("solution"))=2.07 gm//mlrArrV_("solution")=(82.8)/(2.07)=40ml` Molarity `rArrM=(0.4)/(40)xx1000=10M` |
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| 49. |
Molarity of a solution prepared by dissolving 75.5 g ofpure KOH in 540 ml solution is |
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Answer» 3.05 M |
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| 50. |
Molarity of a solution does not change with temparature . |
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