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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. |
Unknown compound A on oxidation with hot basic KMnO, gives only one compound structureof which is given below. HOOC - (CH_2)_4 - COOH. Compound A will be |
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Answer» `CH_3 - C -= C-(CH_2)_4 - C-= C-CH_3` |
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| 2. |
Which one of the following exhibits the largest number of oxidation states? |
| Answer» Answer :D | |
| 3. |
Which of the following equations are correct |
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Answer» `MgCl_(2)*2H_(2)O overset(Delta)(to) Mg(OH)_(2)+2HCL` |
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| 4. |
Which of the following molecules can act as an oxidising as well as a reducing agent ? |
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Answer» `H_(2)S` |
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| 5. |
Which form of carbon is used in making boot polish, printing ink, paint and black varnish |
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Answer» Bone black |
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| 6. |
Which one of the following substituents at para-position is most effective in stabilizing the phenoixde , ion ? |
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Answer» `-CH_(3)` |
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| 7. |
Which of the following compounds will not give Lassaigne's test for nitrogen ? |
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Answer» `NH_(2)NH_(2)` |
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| 8. |
Which of the following statements are true about semiconductors ? |
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Answer» Silicon doped with electron RICH impurity is a p-type semiconductor |
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| 9. |
Write the Van der Waals equation for a real gas. Explain the correction term for pressure and volume. |
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Answer» Solution :The vander equation for a real gas is `(P+(an^(2))/(V^(2)))(V-nb)=nRT` Pressure correction : the pressure of a gas is directly proportional to the FORCE created by the bombardment of molecules on the walls ofthe container. The speed of a molecule moving towards the wallof the container is REDUCED by the attractive Force EXERTED by is neighbours. Hence , the MEASURED gas pressure is lower than the ideal pressure of the gas. Hence, van der waals introduced a correction term to this effect .  Van der Waal' s found out the forces of attraction experienced by a molecule near the wall are directly proportional to the square of the the density of the gas `P'" a "r^(2)` `rho=n/V` When n is the number of moles of gas and V is the volume of the container `impliesP'alpha(n^(2))/(V^(2))` `P'=(an^(2))/(V^(2))` Where a is proportionality. Constant and depends on the natural of gas Therefore , `P_("ideal")=P+(an^(2))/(V^(2))` Volume correction: As very individual molecule of a gas occupies a certain volume. The actual volume is less than the volume of the container, V Van der waals introduced acorrection factorV ' to this effect . LET uscalculate the correction term by. Considering gas molecules as spheres.  V = excluded volume Excluded volume for two molecules `4/3pi(2r)^(3)` `=8(4/3pir^(3))=8v_(m)` Where v is a volume of a single molecule Excluded volume for single molecule `(8V_(m))/(2)=4V_(m)` Excluded volume for n molecule= `n(4V_(m))=nb` Where b is van der waals constant which is equal to `4V_(m)` `impliesV=nb` `V_("ideal")=V-nb` Replacing the corrected pressure and volume in the ideal gas equation of state for real gases as below. `(P+(an^(2))/(V^(2)))(V-nb)=nRT` The constants a and b are van der waals constants and their values vary with the natural of the gas. It is an appointment formula for the non- ideal gas. |
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| 10. |
What is the ratio of the radii of the 3rd orbits of He^(+) and Li^(2+) ? |
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Answer» SOLUTION :n is constant and its value is 3. `Z" of "He^(+)=2, Z" of "LI^(2+)=3` `r_(n)=(0.529xxn^(2))/(Z)Å""(r_(1))/(r_(2))=(Z_(2))/(Z_(1))=(3)/(2) or 3:2` |
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| 11. |
Which of the following method can be used for preparation of anhydrous AlCl_(3) |
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Answer» heating `AlCl_(3)6H_(2)O` |
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| 12. |
Which of the following is not a general characteristic of equilibriuminvolving physical process |
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Answer» EQUILIBRIUM is possible only in a closed system at a given temperature |
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| 13. |
The volume of oxygen required for complete combustion of 0.25 cm^(3) of CH_(4) at S.T.P. is _____________cm^(3) |
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Answer» 0.25 |
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| 14. |
Whichpropertiescan beexplainedby wavenatureand particlenatureof light. |
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Answer» SOLUTION :WAVENATURE: Itexplainscatteringof lightandinterference . Particlenature :It can explainphotoelectriceffectand backbody RADIATION. |
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| 15. |
Which reaction represents oxidising nature of H_2O_2 in acid medium |
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Answer» `H_2O_2 + OH^(-) + 2E^(-) to 3OH^(-)` |
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| 16. |
Which of the follow ing on the addition will cause deep red colour to disappeared ? underset("pale yellow")(Fe_(aq)^(3+)) + underset("colourless")(SCN_(aq)^(-)) hArr underset("deep red")([ Fe (SCN) ]_(aq)^(2+)) |
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Answer» `AgNO_(3)` `Ag^(+)` ion removes `SCN^(-) to AGCNS DARR` b) `Hg^(2+)` ion remove `SCN^(-)` `Hg^(2+) 2SCN^(-) to Hg(CNS)_(2) darr` c) `C_(2)O_(4)^(2-)` ion remove `Fe^(3+)` by complex formation `Fe^(3+)+3 C_(2)O_(4)^(2-) to [Fe(C_(2)O_(4))_(3)]^(3-)` complex SOLUBLE |
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| 17. |
What will be the pressure exerted by a mixture of 3.2 g of methane and 4.4g of carbon dixide contained in a 9 dm^(3) flask at 27^(@)C ? . |
| Answer» SOLUTION :`0.82 ATM` | |
| 18. |
Which among the following alkali metals exhibit the most metallic character? |
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Answer» Na |
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| 19. |
Total no. of isomeric alkadienes with the molecular formula C_(5)H_(8) |
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Answer» |
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| 20. |
Which one of the following substance is not used for preparing lyophillic sols? |
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Answer» STARCH |
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| 21. |
The values ofK_(p_(1)) and K_(p_(2)) for the reactions X hArr Y+Z" "…(1) and A hArr 2 B " "…(2) are in the ratio of 9:1 .If the drgree of dissociation kof X and A be equal , then total pressure at equilibrium (1) and (2) are in the ratio |
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Answer» `3:1` `{: (,X,hArr,Y,+,Z), (" Intial",1 "mole",,0,,0), ("At eqm",1-alpha,,alpha,,alpha"Total"=1+alpha), (,p_(X)=(1-alpha)/(1+alpa)P_(1),,p_(Y)=alpha/(1+alpha)P_(1),,p_(Z) =alpha/(1+alpha)P_(1)):}` ` K_(p_(1))= (alpha/(1+alpha)P_(1))^(2)/((1-alpha)/(1+alpha)P_(1)) = (alpha^(2) P_(1))/(1-alpha^(2))cong alpha^(2)P_(1)` `{: ( ,A,hArr,2B,) , (" Intial" ,1 "mole",,0,) ,(" At eqm" ,1-alpha,,2 alpha,"Total" = 1+alpha):}` `p_(A) = (1-alpha)/(1+alpha)P_(2), p_(B) = (2alpha)/(1+alpha)P_(2)` `K_(p_(2))=(((2alpha)/(1+alpha)P_(2)))/((1-alpha)/(1+alpha)P_(2)) = (4alpha^(2))/(1-alpha^(2))P_(2)= 4 alpha^(2)P_(2)` ` K_(p_(1))/K_(p_(2)) = (alpha_(2)P_(1))/(4 alpha^(2)P_(2))=P_(1)/(4 P_(2))=9/1 ` (GIVEN ) or` (P_(1))/(P_(2))=36/1 = 36*1` |
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| 22. |
The type of hybrid orbitals used by the central atom in perchloate ion is |
| Answer» ANSWER :A | |
| 23. |
What is false about Line's process? |
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Answer» Method is USED for manufacture of dihydrogen (i) `3FE + 4H_2O to Fe_3 O_4+ 4H_2` (ii) `Fe_3 O_4+ 4COto 3Fe + 4CO_2` |
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| 24. |
Write the notes on diatomic molecules and polyatomic molecules. OR Explain the bond enthalpy. |
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Answer» Solution :DIATOMIC Molecules : `H_(2(g)) to 2H_((g)) ,Delta_(H-H)H^( Theta )=435.0 "kj/mol"` The enthalpy change INVOLVED in this process is the bond DISSOCIATION enthalpy of H-H bond. It is the same as the enthalpy of atomization of dihydrogen. This is true for all diatomic molecules. `CI_(2(g)) to 2CI_((g)) , Delta_(CI - CI) H^( Theta ) = 242 "kj/mol"` `O_(2(g)) to 2O_((g)) , Delta_(O=O) H^( Theta ) = 428 "kj/mol"` The bond dissociation enthalpy is the change in enthalpy when one mole of covalent bond of a gaseous covalent compound is broken to form products in the gaseous phase. "It is change in enthalpy to break one mole of covalent bond and to get product in its vapour phase." Polyatomic Molecules : In the case of polyatomic molecules, bond dissociation enthalpy is different for different bonds within the same molecules. e.g., `CH_(4(g)) to C_((g)) + 4H_((g)) , Delta_(a) H^( Theta ) = 1665 "kj mol"` In methane, all the four C - H bonds are identical in bond length and energy. However, the energies required to break the individual C - H bonds in each successive step differ : `CH_(4(g)) to CH_(3(g)) + H_((g)) , Delta_("bond") H^( Theta ) = + 427 "kj mol"^(-1)` `CH_(3(g)) to CH_(2(g)) + H_((g)) , Delta_("bond")H^( Theta ) = +439 "kj mol"^(-1)` `CH_(2(g)) to CH_((g)) + H_((g)) , Delta_("bond")H^( Theta ) = +452 "kj mol"^(-1)` `CH_((g)) to C_((g)) + H_((g)) , Delta_("bond")H^( Theta ) = +347 "kj mol"^(-1)` Therefore, `CH_(4(g)) to C_((g)) + 4H_((g)), Delta_(a) H^( Theta )= 1665 "kj mol"^(-1)` In such cases we use mean bond enthalpy of C-H bond. for example in `CH_(4) , Delta_(C-H) H^( Theta )` is calculated as, `Delta_(C-H) H^( Theta ) = (1)/(4) (Delta_(a) H^( Theta ) )= (1)/(4) (1665) = 416 "kj/mol"` That means C-H bond enthalpy in methane is 416 kJ/mol. It has been found that mean C-H bond enthalpies differ slightly from compound to compound. `Delta_(r) H^( Theta ) "bond enthalpies"_("reactants") - sum "bond enthalpies"_("products")` THUS the net enthalpy change of a reaction is the amount of energy required to break all the bonds in the reactant molecules minus the amount of energy required to break all the bonds in the product molecules. This relationship is approximate and is valid when all substances in the reaction are in gaseous state. Table - (a) : Some Mean Single Bond Enthalpies in kJ `"mol"^(-1)` at 298 K 
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| 25. |
Whichimportantpropertydid Mendeleevuse toclassifythe elementin hisperiodictable ? |
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Answer» SOLUTION :mendeleev used theatomicmassesof the elementin classifyingthe ELEMENTS inhispreidioctable. According toMendeleev's LAW thepropertiesof ELEMENTARE aperiodicfunction of theiratomicmasses. |
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| 26. |
Which of the following is not the correct use of caustic soda ? |
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Answer» For mercerizing cotton |
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| 27. |
Two colourless gases on mixing formed dense white fumes. These are : |
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Answer» `NH_(3) " and " SO_(2)` `NH_(3) + HCl rarr underset(("White fumes"))(NH_(4)Cl)` |
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| 28. |
What is the equilibrium concentration of each of the substances in the equilibrium when the initial concentration of 1Cl was 0.78 M ? 2I Cl (g) hArr I_(2) (g) + Cl_(2) (g), K_(C) = 0.14 |
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Answer» Solution :Suppose at EQUILIBRIUM the molar CONCENTRATION of both `I_(2) (g)` and `Cl_(2) (g)` is x mol `L^(-1)` `{:( ,2I Cl (g) , HARR , I_(2) (g) + Cl_(2) (g)) , ("Initial molar conc." , 0.78 M , , 0 "" 0), ("Eqn. molar conc." , (0.78 - 2x) M , , x "" x):}` `K_(C) = ([I_(2) (g)][Cl_(2) (g)])/([I Cl (g)]^(2)) = ( (x) xx (x))/((0.78 - 2x)^(2))` `(x)/((0.78 - 2x)) = (0.14)^((1)/(2)) = 0.374` or `x= 0.374 (0.78 - 2x)` `x = 0.292 - 0.748x ` or `x = 1.748 x = 0.292 , x = (0.292)/(1.748) = 0.167` `[I Cl] = (0.78 - 2 xx 0.167) = (0.78 - 0.334) = 0.446 M` `[I_(2)]= 0.167 M , [Cl_(2)] = 0.167 M` |
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| 29. |
When the electron in the .H. atom jumps from the fifth orbit to the second orbit, the spectral line emitted is found in |
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Answer» VISIBLE region |
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| 30. |
Which of the following species have the same bond order? |
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Answer» `CN^(-)andCN^(+)` |
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| 31. |
Which one is not true? |
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Answer» The catalyst accelerates the reaction |
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| 32. |
What is the condition of precipitation using solubility product principle? |
| Answer» SOLUTION :If the value of the ionic product is greater than the value of the solubility product, PRECIPITATION occurs. i.e., `(Q_(SP)gtK_(sp))`. | |
| 33. |
Which of the following homogeneous catalyst used in the conversion of ethyl acetate into ethanol ? |
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Answer» `H^(+)` |
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| 34. |
The s-subhells have ____shape and the p-subshells have____ |
| Answer» SOLUTION :SPHERICAL , DUMB BELL SHAPE . | |
| 35. |
The wavelengthrangeof the visiblespectrumextendsfromvloler(400nm)to red(750nm)Expressthesewavelengthin frequency(Hz) |
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Answer» SOLUTION :forultravioler 400nm= 400 `xx 10^(9)m= lambda` C=velocityof lightin VACUUM= 30.`xx10^(8) ms^(-1)` `v=(c )/(lambda) = (3.00xx 10^(8)ms^(-1))/(400 xx 10^(9)m)` Wavelength`= lambda= 750nm = 750xx 10^(9) m` and v=c= 30`xx 10^(8)ms^(-1)` `v=(c )/(lambda )= (3.0xx 10^(8) ms^(-1))/(750 xx 10^(9 ) m)` Therangeof visiblespectrumis from `40xx 10^(14)` hz to7.5 `xx 10^(14) Hz`in terms offrequecny units. |
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| 37. |
What iare the uses of cabon tetrachloride? |
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Answer» Solution :(i) Carbon tetrachloride im uscd as a dry cleanng apent. (II) it is used as a solvent LOR oils, lats and waxes. (iii) As the vapours of `C Cl_4` is non-combustible,it is used the name pyrene for extinguishing the FIRE CAUSED by oil (or)petrol. |
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| 38. |
Write the IUPAC names of the following compounds. (i) CH_(3)-underset(CH_(3))underset(|)(CH)-underset(CH_(2)-CH_(3))underset(|)(CH)-CH_(2)-CH_(3) (ii) CH_(3)-CH_(2)-underset(COOH)underset(|)(CH)-CH=CH_(2) (iii) HOOC-underset(CH_(3))underset(|)overset(CHO)overset(|)C-CH_(2)-CH_(2)-CH_(2)-CH_(3) |
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Answer» SOLUTION :(i) 3-ethyl-2-methylpentane (II) 2-ethyl but-3-enoic ACID (III) 2-formyl-2-methylheptanoic acid |
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| 39. |
When acetylene is passed through red hot iron tube, compound X is formed. Which one of the following reactions will yield X as the major product? |
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Answer» `C_6H_5SO_3H + NaHCO_3 rarr` |
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| 40. |
When 0.1mole of a gas absorbs 41.75 J of heat, the rise in temperature occursequal to 20^(@)C. The gas must be |
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Answer» triatomic `=( 41.75J)/( 0.1 mol xx 20^(@)) = 20.875 JK^(-1) mol^(-1)` `C_(p) = C_(v) + R = 20.875 + 8.314 JK^(-1) mol^(-1)` `= 29.189 JK^(-1) mol^(-1)` `(C_(p))/( C_(v)) = ( 29.189)/( 20.875) = 1.40`. Hence, the GAS is diatomic. |
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| 41. |
Two formulal to calculate number of milli equivalents (mlQ) Numbr of miliequivalents =("weight")/("GEW")xx1000 Numbr of milliequivalents= volume in ml xx Normality of solution 0.25 grams of pure CaCO_(3) neutralised 25 ml dilue HCl normality of HCl solution is |
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Answer» 0.1 N No. of Meq of HCL = `25xx` NORMALITY of the solution No. of Meq of `CaCO_(3)` = No. of Meq of HCl `therefore` Normality of HCl solution = 0.2N |
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| 42. |
Which of the following can be used for resolving racemic carboxylic acid. |
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Answer» `(-)Ph - undersetoverset(|)(CH_3)(C )H -NH_2` |
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| 43. |
The solubility product of Zr(OH)_(2) is 4.5xx10^(-17) "mol"^(3)L^(-3). What is solubility? |
| Answer» SOLUTION :`2.6 XX 10^(-6) M` | |
| 44. |
Which of the following trimethyl cyclohexanes is the least stable |
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Answer»
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| 45. |
The set representing the correct order of ionic radii is |
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Answer» `Na^(+) gt Li^(+) gt Mg^(2+) gt Be^(2+)` `Na^(+) gt Li^(+) gt Mg^(2+) gt Be^(2+) ` i.e., option (a) is CORRECT . |
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| 46. |
Which hybridisation is found in HCIO_4 and HCIO_3? |
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Answer» `SP^(3)` |
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| 47. |
Which of the following is covalent ? |
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Answer» NaCl |
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| 48. |
True statement about above reaction : |
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Answer» Reagent involve stereospecific syn addition of H and OH SPECIES . |
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| 49. |
What is the correct representation for the solubility product of SnS_(2) ? |
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Answer» `[SN^(2+)][S^(2-)]^(2)` |
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