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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. |
Sodium nitrate decomposes above 800^(@)C to give |
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Answer» `N_(2)` `2KNO_(3)(s)overset(800^(@)C)rarr2KNO_(2)(s)+O_(2)(g)` |
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| 2. |
Sodium metal vaporises on heating and the vapour will have diatomic molecular of sodium (Na_(2)). What type of bonding is presetn in these moleculas ? Justify your answer . |
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Answer» SOLUTION :Covalent bonds are present in `Na_(2)` . This can be explained on the basis of molecular orbital theory . Electronic configuration of `""_(11)Na = 1s^(2) 2S^(2) 2p^(6) 3S^(1)` . The 3s atomic ORBITALS of the two sodium atoms combine to form `sigma _(3s) and sigma _(3s)^(**)`molecular orbitals . The two electrons entre into `sigma_(3s)` . Hence, BOND order = 1 . Thus , the two sodiium atoms are linked by a single covalent bond . |
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| 3. |
Sodium metal vapprises on heating and the vapours have diatomic molecules of sodium (Na_(2)). what type of bonding is present in these moleceles ? |
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Answer» |
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| 4. |
Sodium metal on dissolution in liquid ammonia gives a deep blue solution due to the formation of .......... |
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Answer» sodamide |
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| 5. |
Sodium metal itself is used as |
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Answer» OXIDISING agent |
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| 6. |
Sodium metal is stored in ....... to avoid contact with air and water. |
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Answer» Alcohol |
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| 7. |
Sodium metal is extracted by the electrolysis of fused chloride but potassium metal cannot be obtained by electrolysis of fused potassium chloride . Why so ? |
| Answer» SOLUTION :Since K METAL is more soluble in KCL than NA metal is soluble in NaCl . | |
| 8. |
Sodium metal preserved under kerosine. This is to prevent |
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Answer» volatility of METAL |
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| 9. |
Sodium metal crystallizes in a body -centred cubic lattice with a unit cell edge of 4.29 Å. The radius of sodium metal is approximately |
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Answer» 5.72 Å |
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| 10. |
Sodium metal crystallizes in a body -centred cubic lattice with a unit cell edge of4. 29 Å. The radius of sodium metal is approximately. |
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Answer» 5.72 Å |
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| 11. |
Sodium metal crystallises in body centred cubic lattice with the cell edge , 4.29 Å. What is the radius of sodium atom? What is the length of the body diagonal of the unit cell ? |
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Answer» Solution :For BODY centred cubic lattice, the RELATIONSHIP between the cell EDGE (a) and the radius of the atom is `r=sqrt3/4a=1.732/4xx4.29`=1.86 Å Length of the body DIAGONAL =4r =4 x 1.86 Å=7.44 Å |
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| 12. |
Sodium lamp emits yellow light of wavelength 5800 Å the wave number of the light is |
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Answer» `1.72xx10^(6)//m` `=1/(5800xx10^(-10)m)=1.724xx10^(6)//m` |
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| 13. |
Sodium-lead alloy is used in the preparation of which is used as an ............... compound to improve the quality of petrol |
| Answer» SOLUTION : TETRA ETHYL lead and ANTI KNOCK | |
| 14. |
Sodium is made by the electrolysis of a molten mixture of about 40% NaCl and 60% CaCl_2 because(a)Ca^(2+)ion can reduce NaCl to Na(b)CaCl_2 helps in conduction of electricity(c)this mixture has a lower melting point than NaCl(d)Ca^(2+) can displace Na fromNaCl. |
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Answer» `Ca^(2+)`ion can REDUCE NaCl to Na |
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| 15. |
Sodium is strongly metallic, while chlorine is strongly non-metallic - explain. |
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Answer» |
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| 16. |
Sodium is stored under kerosene. Give reason. |
| Answer» Solution :Because sodium metals is highly REACTIVE and combies with oxygen, moisture and `CO_(2)` from present in AIR FORMING `Na_(2)O, NAOH` and `Na_(2)CO_(3)` etc, | |
| 17. |
sodium is stored in |
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Answer» alcohol |
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| 18. |
Sodium ion is isoelectronic with……..atom |
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Answer» `MG^(2+)` |
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| 19. |
Sodium in liquid ammonia is called mixed conductor. Comment. |
| Answer» SOLUTION :Sodium metal as wella as sodium cation. Both are present in a solution of sodium in ammonia. It is a mixture of ELECTRONIC and ELECTROLYTIC conductor. | |
| 20. |
Sodium hydroxide on reaction with CO_(2)produces ....... |
| Answer» Solution :SODIUM CARBONATE `(Na_(2)CO_(3))` | |
| 22. |
Sodium hydroxide is a deliquescent in nature. Why? |
| Answer» SOLUTION :NaOH is a DELIQUESCENT solid because it absorbs moisture from the AIR and dissolves in that moisture. | |
| 23. |
Sodium hydrogen carbonate is produce on passing of which gas through the washing soda? |
| Answer» SOLUTION :`Na_(2)CO_(3)+H_(2)O+CO_(2) to 2NaHCO_(3)` | |
| 25. |
Sodium hexametaphosphate is known as ……… at commerically. |
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Answer» calgon |
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| 26. |
Sodium has a bcc structure with nearest neighbour neighbour distance 365.9 pm. Calculate its density (Atomic mass of sodium = 23) |
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Answer» Solution :For the BCC, structure, nearst NEIGHBOUR distance (d)is related to the edge (a) as ` d= sqrt3/2 a` or ` a= 2/sqrt3 d = 2 / 1.732 xx 365.9 = 422.5` pm. For bcc stucture, Z =2 For sodiumM= 23 , ` p = ( Z xx M)/ (a^(3) xx N_(0)) = (2xx23 "g mol"^(-1))/((422.5xx10^(-10) cm)^(3)xx(6.02xx 10^(23)"mol"^(-1)))= 1.51 "g/cm"^(3)` |
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| 27. |
Sodium has a bcc structure with nearest neighbour distance 365.9 pm. Calculate its density (Atomic mass of sodium =23) |
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Answer» Solution :For the BCC structure , nearest NEIGHBOUR distance (d) is RELATED to the edge (a) as `d=sqrt3/2 a` or `a=2/sqrt3 d =2/1.732xx365.9` =422.5 pm For bcc structure, Z=2 For sodium , M=23 `THEREFORE RHO =(ZxxM)/(a^3xxN_0)=(2xx23 g mol^(-1))/((422.5xx10^(-10)cm)^3xx(6.02xx10^23 mol^(-1))=1.51 g//cm^3` |
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| 28. |
The violet flame shown by potassium in bunsen flame is due to jumping of the electron from |
| Answer» SOLUTION :YELLOW, PALE, VIOLET | |
| 29. |
Sodium fusion extract, obtained from aniline, a treatment with iron (II) sulphate and H_(2)SO_(4) in presence of air gives a prussion blue precipitate. The blue colour is due to the formation of: |
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Answer» `Fe_(4)[FE(CN)_(6)]_(3)` |
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| 30. |
Sodium fusion extract, obtained from aniline, on treatment with iron (II) sulphate and H_(2)SO_(4) in presence of air gives a prussian blue precipitate. Hence, the blue colour is due to the formation of |
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Answer» `Fe_(4)[Fe(CN)_(6)]_(3)` |
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| 31. |
Sodium fusion extract of an organic compound gives blood red colour with FeSO_(4)//Conc. H_(2)SO_(4) on heating. Fresh extract of the same compound gives black precipitate when mixed with (CH_(3)COO)_(2)Pb and with yellow precipitate when treated with AgNO_(3) solution. Then the organic compound may be |
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Answer» `C_6H_12NCl` |
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| 32. |
Sodium forms a crystalline ionic solid with dihydrogen . The solid is non-volatile and non-conducting in nature. It reacts violently with water to produce dihydrogen gas. Write the formula of this compound and its reaction with water. What will happen on electrolysis of the melt of this solid. |
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Answer» Solution :Sodium reacts with dihydrogen to form sodium hydride which is a CRYSTALLINE ionic solid. `2Na+H_(2) to 2Na^(+) H^(-)` It reacts with `H_(2)O` to produce `H_(2)` gas `2NaH+2H_(2)O to 2NAOH + 2H_(2)` Although `Na^(+)H^(-)` does not conduct electricity in the solid state but the ELECTROLYSIS of its melt PRODUCES `H_(2)` at the anode and Na at the cathode `Na^(+)H^(-)(l) overset("Electrolysis")to overset("At cathode")(2Na(l))+ overset("At anode")(H_(2)(g))` |
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| 33. |
Sodium forms a crystalline ionic solid with dihydrogen. The solid is non-volatile and non conducting in nature. It reacts violently with water to produce dihydrogen gas. Write the formula of this compound and its reaction with water. What will happen on electrolysis of the melt of this solid. |
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Answer» Solution :Sodium reacts with dihydrogen to FORM sodium HYDRIDE which is a crystalline ionic solid. `2NA+H_2 to 2Na^(+) H^-` It reacts with `H_2O` to produce to `H_2` gas. `2NaH+2H_2O to 2NaOH + 2H_2` ALTHOUGH `Na^+H` does not conduct ELECTRICITY in the solid state but the electrolysis of its melt produces `H_2` at the anode and Na at the cathode. `Na^(+)H^(-) overset"Electrolysis"to underset"At cathode"(2Na_((l))) + underset"At Anode"(H_(2(g)))` |
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| 34. |
Sodium fire in the laboratory should not be extinguished by pouring water . Why ? |
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Answer» Solution :The reaction of sodium with `H_(2)O` is so exothermic that the `H_(2)` produced CATCHES fire . `2 Na + 2 H_(2)O to 2 NaOH + H_(2)` As a result , the fire spreads rather than being extinguished . Therefore , `H_(2)O` should not be USED for EXTINGUISHING sodium fire . instead pyrene `(C Cl_(4))` should be used . When `C Cl_(4)` is sprinkled over fire , it being volatile (b.p. 350 K) immediately forms vapours . These vapours being non-inflammable and heavy , SURROUND the fire . As a result , supply of air is cut off and the fire gets extinguished . |
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| 35. |
Sodium crystallizes in a bcc unit cell. Calculate the approximate number of unit cells in 92 g of sodium (Atomic mass of Na = 23) |
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Answer» |
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| 36. |
Sodium crystallises in the cubic lattice and the edge of the unit cell is 430 pm. Calculate the number of atoms in a unit cell. [Atomic mass of Na=23.0 amu, Density of sodium = 0.9623 "g cm"^(-3), N_A=6.023xx10^23 "mol"^(-1)] |
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Answer» |
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| 37. |
Sodium chloride, NaCl, usually crystallizes in a face-centred cubic lattice. How many ions are in contact with any single Na^(+)ion? |
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Answer» 4 |
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| 38. |
Sodium chloride is soluble in water but insoluble in benzene or hexane. Explain in the observation. |
| Answer» Solution :SODIUM chloride is an ionic solid and water is a polar SOLVENT. Water molecules attract `Na^(+) and Cl^(-)` ions by their negative and positive poles RESPECTIVELY. As a result, theions get detached from the crystal lattice and undergo solvation with the evolution of solvation enegy. in this case, SINCE the solvation ENERGY is greater than lattice energy. NaCl dissolves in water. on the other hand, benzene and hexane are non-polar organic solvents and they cannot solvate `Na^(+) and Cl^(-)` ions. hence, sodium chloride is insoluble in benzene or hexane. | |
| 39. |
Sodium chloride crystallises into F.C.C lattice with Na+ occupying corner of a cube and the centre of each face, whereas Cl^(-) is occupies the centre of each edge and centre of the cube. The r_c //r_a value for NaCl is 0.53 and coordination number is 6. In NaCl unit cell, the edge length is |
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Answer» `2r_c+2r_a` |
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| 40. |
Sodium chloride crystallises into F.C.C lattice with Na occupying corner of a cube and the centre of each face, whereas Cl^(-) is occupies the centre of each edge and centre of the cube. The r_c //r_a value for NaCl is 0.53 and coordination number is 6. If all the face centred ions along one of the axis are removed, the stoichiometry of the resulting solid is |
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Answer» `NACL |
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| 41. |
Sodium chloride crystallises into F.C.C lattice with Nat occupying corner of a cube and the centre of each face, whereas Cl^(-) is occupies the centre of each edge and centre of the cube. The r_c //r_a value for NaCl is 0.53 and coordination number is 6,6. In NaCl crystal lattice each sodium ion is surrounded by — number of chloride ions in ---- fashion |
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Answer» 8, TETRAHEDRAL |
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| 42. |
Sodium chloride crystallises into F.C.C lattice with Na occupying corner of a cube and the centre of each face, whereas Cl^(-) is occupies the centre of each edge and centre of the cube. The r_c //r_a value for NaCl is 0.53 and coordination number is 6,6. If all the ions present in one plane that is passing through the centre are removed, the formula of the resulting unit cell is |
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Answer» `NACL` |
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| 43. |
Sodium carbonate (Na_(2)CO_(3)0can be obtained by heating sodium hydrogen carbonate,NaHCO_(3) 2NaHCO_(3)(s) rarr Na_(2)CO_(3)(s)+H_(2)O(g) + CO_(2)(g) Calculate the temperatureabove which NaHCO_(3) decomposes to form products at 1 bar . Given Delta_(f)H^(@) ( kJ mol^(-1)):NaHCO_(3)(s) = =- 947.7 , Na_(2)CO_(3)(s) = - 1130 .9, H_(2)O(g)= - 241.8 , CO_(2)(g) = - 393.5 S^(@) (JK^(-1) mol^(-1)) : NaHCO_(3)(s) = 102.1 , Na_(2)CO_(3) (s)=136.0, H_(2)O(g) = 188.8, CO_(2)(g) 213.7 |
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Answer» Solution : `Delta_(r)H^(@) = ( -1130.9) + ( -241.8) + ( -393.5)- 2 xx ( -947.7 )= 129.2 KJ mol^(-1)` `Delta_(r)S^(@) = ( 136.0 +188.8 +213.7) - 2( 102.1) = 334.3 JK^(-1) mol^(-1)` `Delta_(r)G^(@)= Delta_(r)H^(@)-TDelta_(r)S^(@)`, At equilibrium , `DELTAG^(@)= 0, T - ( Delta_(r)H^(@))/( Delta_(r)S^(@))= ( 129200)/( 334.3) = 386.5K` Thus, above 386.5 K , `Delta_(r)G^(@)` will be negative and the reactionwill be spontaneous. |
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| 44. |
Sodium carbonate is manufactured by Solvay process. The products those are recycled are |
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Answer» `CO_(2)` and NH |
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| 45. |
Sodium carbonate is soluble in water because |
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Answer» High LATTICE ENTHALPY |
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| 46. |
Sodium carbonate is prepared by …….and its formula is ……. . |
| Answer» Solution :Solvay AMMONIA PROCESS , `Na_(2) CO_(3) . 10 H_(2)O` | |
| 47. |
Sodium carbonate is generally prepared by a process called ammonia soda process as follows : The above process cannot be used for the manufacturing of K_(2)CO_(3) because |
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Answer» `KHCO_(3)` is soluble in water and doe not percipitate in carbonating water |
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| 48. |
Sodium carbonate is manufactured by Solvay process. The products that are recycled are |
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Answer» `CO_2and NH_3` |
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| 49. |
Sodium carbonate is highly soluble in water, but magnesium carbonate is less soluble. Why? |
| Answer» Solution :Cation of group IA,`M^(+)` has one unit CHARGE, while that of IIA, `M^(2+)` has two UNITS charge. The GREATER the charge, the greater is the lattice energy. In the case of magnesium carbonate, lattice energy dominates hydration energy. HENCE, it is less soluble. | |
| 50. |
Sodium carbonate is generally prepared by a process called ammonia soda process as follows : Which of the following is by-product in the above process? |
| Answer» Answer :B | |