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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. |
Find the number of molecules, number of atoms and total number of atoms in 5.6 L of CH_(4) at STP. |
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| 2. |
Findthe numberof isobaricpairsfor theelementsrepesentedby (A,z) (232,90),(228,88),(228,89),(214,82),(218,84),(210,81),(216,85),(207,82),(211,83): |
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| 4. |
Find the number of electrons lost by 1/6 molecule of caffine in the given combustion reaction. C_(8)H_(10)N_(4)O_(2)+ O_(2) to CO_(2)+H_(2)O+NO_(2) |
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| 5. |
Find the number of enantiomeric pairs that can be produced during the monochlroination of n-pentane is |
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| 6. |
Find the number of electron - donating groups in resonance among the following : {:("a) "-CONH_(2), "b) "-NO_(2), "c) "-OCOCH_(3), "d) "-COOCH_(3)), ("e) "-CHO, "f) "-NHCOCH_(3),"",""):} |
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| 7. |
Find the number of correct statements about (X)? (a) X is cyclic hexametaphosphate (Na_(6)P_(6)O_(18)). (b) X is widely used for softening water. (c) X is long chain linear polyphosphate. (d) X is soluble water. (e) X is known as cyclic calgon. (f) X is Graham salt. |
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| 8. |
Find the number of dibromo derivatives of molecular formula C_(3)H_(6)Br_(2) is |
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Answer» 4 
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| 9. |
Find the number of correct statements about NH_(3). (a) Basic gas (b) Turns red litmus to blue litmus (c) Gives white dense fumes with HCI (d) Gives brown ppt. with Nessler's reagent (e) Gives deep blue colour with CuSO_(4) solution with passed in excess (f) Gives deep blue colour with NiCI_(2) solution when passed in excess |
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| 10. |
Find the number of correct statements. (a) R has octahedral geometry. (b) overset(III)(Fe) is d^(2)sp^(3) hybridised in R R is paramagnetic (d) R shows optiocal isomerism (e) R shows geometrical isomerism (f) Gas (S) is colourless (g) Gas (S) has bond order of 1 (h) Gas (S) is monoatomic. If total 3 statements are correct, write your answer as 003. |
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Answer» `(Q) rarr Na_(2)C_(2)O_(4) overset(FeCI_(3))rarr [Fe^(+3)(C_(2)O_(4))_(3)]^(3-)` (R) `d^(2)sp^(3)`, OCTAHEDRAL `(S) rarr H_(2) (B.O = 1)` Correct STATEMENTS `rarr a,b, c,d,f,g` |
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| 11. |
Find the number of correct statement(s): a) CH_(3)Ooverset(oplus)(C)H_(2) is more stable than CH_(3)overset(oplus)(C)H_(2) b) Me_(2)overset(oplus)(C)H is more stable than CH_(3)CH_(2)overset(oplus)(C)H_(2) c) CH_(2)=CH-overset(oplus)(C)H_(2) is more stable than CH_(3)CH_(2) overset(oplus)(C)H_(2) d) CH_(2)=overset(oplus)(C)H is more stable than CH_(3)overset(oplus)(C)H_(2) |
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| 12. |
Find the number of cations when treated with aq. Solution of Na_(2)CO_(3), ppt. of carbonate formed Hg^(+2),Ba^(+2),Cu^(+2),Ag^(+),Pb^(+2) |
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| 13. |
Find the number of carbonates having K_(sp) value greater than Li_(2)CO_(3) Na_(2)CO_(3),K_(2)CO_(3),Rb_(2)CO_(3),Cs_(2)CO_(3) |
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| 14. |
Find the number of carbonate precipitates which are white in colour PbCO_(3),3HgO,HgCO_(3),Hg_(2)CO_(3),CuCO_(3).Cu(OH)_(2),BaCO_(3) |
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| 15. |
Find the number of carbon atoms including the given structure which can have negative change in resonating structures. (The structure with charge reperating are not accepted) |
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| 16. |
How many primary amine structural isomers are possible with the molecular formula C_(4)H_(11)N. |
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Answer» 6-Aldehyde, 4-Ketone `C-C-UNDERSET(("d & L"))underset( C )underset(|)overset(CDOT)C-C-CHO""C-C-overset(O)overset(||)C-C-C` `C-underset( C )underset(|)C-C-CHO""C-overset(O)overset(||)C-underset( C )underset(|)C-C` `C-underset( C )underset(|)overset( C )overset(|)C-CHO` |
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| 18. |
Find the number of aldehydes and ketones (including with stereo isomers) of Molecular formula C_(5)H_(10)O Can have: |
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Answer» 6-Aldehyde, 4-Ketone 
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| 20. |
Find the normality of oxalic and solution containing 63 g of crystalline oxalic acid in 500 ml of solution. |
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Answer» Solution :WEIGHT of solute =6.3 g GEW of solute `=(126)/(2)=6.3g` NORMALITY, `N=(W)/(GEW) xx (100)/(V_(ML))=(6.3)/(6.3) xx (100)/(500)=0.2N` |
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| 21. |
Find the momentum of a particle whose de Broglie wavelengh is 1Å. |
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Answer» Solution :de BROGLIE wave length, `lambda=1Å=1.0xx10^(-10) m` Momentum of a particle, P = ? `lambda=(H)/(P) or P=(h)/(lambda)=(6.625xx10^(-34)KGM^(2)s^(-1))/(1.0xx10^(-10)m)` Momentum of a particle is `6.625 xx 10^(-24) kg ms^(-1)` |
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| 22. |
Find the moles of O_(2) has having pressure 250 bar in 500 mL vessel at 300 K temperature. [R=8.314xx10^(-2)" bar " L K^(-1)mol^(-1)] |
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| 23. |
Find the molecular weight of Y report your answer as ("Molecular weight")/(2) |
| Answer» SOLUTION :N//A | |
| 24. |
Find the molecular mass of glucose (C_6H_12O_6) and calculate the mass of one molecule of it. |
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Answer» Solution :The MOLECULAR formula of GLUCOSE is `C_(6)H_(12)O_(6)`. The molecular mass of glucose: `=(6 xx 12.01) + (12 xx 1.008) + (6 xx 16.0) = 180.156` amu Hence, the gram molecular mass of glucose will be `180.156` g and will contain `6.022 xx 10^23` molecules. `therefore`The mass of one MOLECULE of glucose `=(180.156)/(6.022 xx 10^(23)) = 2.992 xx 10^(-22) g` |
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| 25. |
Find the molecular mass of FeSO_4 7H_(2)O. |
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Answer» Solution :Sum of ATOMIC mass of all elements = Molecular mass Atomic mass of Fe = 56.0 Atomic mass of S = 32.0 Atomic mass of 4(0] = 64.0 Atomic mass of 14[H] = 14.0 Atomic mass of 7[O] = 112.0 = 278.0 Molecular mass of `FeSO_(4)*7H_(2)O` = 278 G. |
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| 26. |
Find the molarity and molality of a 15% solution of H2S04 (density of H_2SO_4 solution = 1.10 g cm^(-3), Molecular mass of H_2SO_4 = 98). |
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Answer» Solution :15% solution of `H_2SO_4` means 15 g of `H_2SO_4` are present in 100 g of the solution. Thus, mass of `H_2SO_4` dissolved = 15 g mass of the solution = 100 g. Density of the solution (GIVEN) = `1.10 g cm^(-3)` Calculation of molarity: Moles of `H_(2)SO_(4)` dissovled = `15/98 = 0.135` `therefore` Density `=("Mass")/("Volume")` `therefore` Volume = `("Mass")/("Density")` `therefore` The volume of 100 g of the solution `=100/(1.10)= 90.91 cm^(3) = 0.091 L` The molarity of the solution `=("No. of moles of" H_(2)SO_(4))/("Volume in litres")` `=0.153/0.091 = 1.68 MOL L^(-1)` Hence, the molarity of the given solution is 1.68 M. Calculation of molality : Moles of `H_2SO_4` dissolved = 0.153 Mass of water present in 100 g of solution =100-15 = 85 g = 0.085 kg Molality of the solution `=("No. of moles of" H_(2)SO_(4))/("Mass of water in kg")` `=0.153/0.085 = 1.8 mol kg^(-1)` Hence, the molality of the given solution is 1.8 m |
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| 27. |
The minimum number of carbon atoms to be present in a carboxylic acid to exhibit optical activity is |
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| 28. |
Findthe massof photonof sodiumlamp. Howmuchtimesthismassthanelectronmass ? |
| Answer» Solution :3.75 `xx 10^(36) kg ` approx `2.5 xx 10^(5) ` TIMES | |
| 29. |
Find the mass of Na_(2)CO_(3) required to prepare 3250 ml of 0.5N solution. |
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Answer» Solution :NORMALITY, `N=(W)/(GEW) xx (1000)/(V_(ML))` `(0.5)=(W)/(53) xx (1000)/(250)` Weight of `Na_(2)CO_(3)=6.62g` |
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| 30. |
Find the mass of H_2SO_4 present in 100 cm^(3) of a decimolar solution. |
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Answer» Solution :According to the molarity relation, `w =(M xx M. xx V)/1000` In the present case, `M = 1/10` (the solutioon is decimolar) `M.=98, v = 100 cm^(3)` `therefore w = (1/10 xx 98 xx 100)/1000 = 0.98 g` HENCE, the `100 cm^(3)` of the GIVEN solution CONTAIN 0.98 g of `H_(2)SO_(4)` |
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| 32. |
Find the mass of 450cm^3 of N_2 gas at 32^@C and 750mm of Hg pressure. |
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| 33. |
Find the kinetic energy of 2 moles of an ideal gas in calories at 27^@C |
| Answer» SOLUTION :1800 CAL | |
| 34. |
Find the incorrect statement. |
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Answer» Smallest ATOM of periodic table is He |
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| 35. |
Find the hydrolysis constant of NaX, if the dissociation constant of weak acid HX is 2 xx 10^(-5). |
| Answer» SOLUTION :`5 XX 10^(-10)` | |
| 36. |
Find the hydrogen ion and hydroxyl ion concentrations of the solution if its pH is 3.75 |
| Answer» SOLUTION :`1.8 XX 10^(-4) M ,5.55 xx 10^(-11)` | |
| 37. |
Find the formation enthalpy of SO_(3) from the enthalpyof given reactions. S_(8(s)) + 8O_(2(g)) to 8SO_(2(g)) , DeltaH= -2775 kj/mol 2SO_(2(g)) + O_(2(g)) to 2SO_(3(g)) , DeltaH= - 198 kj/mol |
| Answer» SOLUTION :`-445.9` k.cal/mole | |
| 38. |
Find thefrequencyandwavelengthof lightrequireionizationof solution . (ionizationenergyof solution=8.2 xx 10^(-19) J) |
| Answer» SOLUTION :`V = 1.238 xx 10^(15)HZ LAMBDA= 242nm` | |
| 39. |
Find the equivalent weight of H_(3) PO_(4) in each of the following reactions: H_(3) PO_(4) + OH^(-) to H_(2) PO_(4)^(-) + H_(2) O H_(3) PO_(4) + 2OH^(-) to HPO_(4)^(2-) + 2H_(2) O H_(3) PO_(4) + 3OH^(-) to PO_(4)^(3-) + 3H_(2) O |
| Answer» SOLUTION :98, 49, 32.67 | |
| 40. |
Find the equivalent mass of H_3PO_4in the following reaction : Ca(OH)_(2) + H_(3)PO_(4) to CaHPO_(4) + 2H_(2)O |
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| 41. |
Find the equilibrium constant for below reaction at 298 K temperature. 2NOCI_((g)) hArr 2NO_((g)) + CI_(2(g)) [DeltaH^(@) = 18.4512 Kcal, DeltaS^(@) = 29.16 Cal] |
| Answer» SOLUTION :`K_(p) = 6.94 xx 10^(-8)` | |
| 42. |
Find the equilibrium constant for below reaction at 25° H_(2(g)) + (1)/(2) O_(2(g)) hArr H_(2) O_((g)) [DeltaG^( @) = -54.64 K.cal] |
| Answer» SOLUTION :`K_(p) -1.169 xx 10^(40) ` | |
| 43. |
Find the energy of each of the photons which (i) corresponds to light of frequency 3 xx 10^(15)Hz (ii) have wavelength of 0.50 Å |
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Answer» Solution :(i) `v = 3 xx 10^(15) Hz, E = hv = (6.626 xx 10^(-34) JS) (3 xx 10^(15) s^(-1)) = 1.988 xx 10^(-18) J` (II) `lamda = 0.50 xx 10^(-10) m, E = hv = H (c)/(lamda) = ((6.626 xx 10^(-34) Js) (3 xx 10^(15)s^(-1)))/(0.50 xx 10^(-10) s) J = 3.98 xx 10^(-15) J` |
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| 44. |
Find the enthalpy of formation of Hydrogen fluorideon the basis of following data : Bond energy of H-H bond= 434kJ mol^(-1) Body energy of F-F bond = 158 kJ mol^(-1) Bond energyof H-Fbond = 565 kJ mol^(-1) |
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Answer» `Delta_(r)H= Sigma B.E.` ( REACTANTS) `- Sigma`B.E. ( Products) `=(1)/(2)B.E. ( H_(2)) + (1)/(2) B.E. (F_(2))- B.E. (HF) = (1)/(2 ) xx434 +(1)/(2) XX 158 - 565 = - 269 kJ MOL^(-1)` |
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| 45. |
Find the enthalpy of combustion of carbon ( graphite) to produce carbon monoxide( g)on the basisof data givenbelow:C ( graphite ) + O_(2)(g) rarr CO_(2)(g) + 393. 4 kJ mol^(-1) CO(g) + (1)/(2) O_(2)(g) rarr CO_(2)(g) + 283.0 kJ mol^(-1) |
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Answer» Eqn . (i) - Eqn. (II) gives the REQUIRED RESULT. |
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| 46. |
Find the difference between the values of DeltaH and Delta Ufor the combustion n - octane at 25°C. |
| Answer» SOLUTION :`-11.15 KJ` | |
| 47. |
Find the differencebetween Z_("eff)of 4s and3d electronsof Sc. |
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| 48. |
Find the Delta H for the reaction given below. PCI_(5(g))to PCI_(3(g)) + CI_(2(g)) |
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Answer» `DELTAU - RT` |
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| 49. |
Find the critical constant (P_(C),V_(C) and T_(C)) in terms of A and B, also find compressibility factor (z) for the following equation of state PV=R R-(A)/(V)+(2B)/(V^(2)) where A and B are constants, P = pressure and V = molar volume. Hence, write the value of (1)/(Z_(C)). |
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| 50. |
Find the density of methane at 298K and 72cm of Hg pressure |
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