\nExpress the relation between conductivity and molar conductivity of a solution held in a cell. [1]
\nAnswer:
\nThe molar conductivity of a solution is related to the conductivity of that solution as:
\n
![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583453931_48e3692331_o.png?resize=197%2C52&ssl=1\")
<\/p>\nTime allowed: 3 hours
\nMaximum Marks: 70<\/p>\n
Question 1.
\n‘Crystalline solids are anisotropic in nature’. What does this statement mean? [1]<\/p>\n
Question 2.
\nExpress the relation between conductivity and molar conductivity of a solution held in a cell. [1]
\nAnswer:
\nThe molar conductivity of a solution is related to the conductivity of that solution as:
\n<\/p>\n
Question 3.
\nDefine ‘Electrophoresis. [1]
\nAnswer:
\nElectrophoresis is the phenomenon of movement of colloidal particles under the applied electric field.<\/p>\n
Question 4. Question 5. Question 6. Question 7. Question 8. Question 9. Question 10. Question 11. Question 12. Question 13. (ii) Actinoids exhibit a greater range of oxidation states than lanthanoids. This is because there is less energy difference between 5f and 6d orbitals belonging to actinoids than the energy difference between 4f and 5d orbitals in case of lanthanoids.<\/p>\n Question 14. (ii) When anisole is treated with acetyl chloride in the presence of anhydrous AlCl3<\/sub>, 2-methoxy acetophenone is formed. Question 15. Question 16. Question 17. Secondary structure of proteins refers to the conformation which arises due to the coiling of the polypeptide chain due to intramolecular hydrogen bonding between carbonyl (=C=O) and -NH groups. Depending upon the size of -R group, there are two secondary structures of protein, i.e., \u03b1-Helix and \u03b2-Pleated sheet-like structure.<\/p>\n Question 18. Answer:<\/p>\n Question 19. Question 20. Question 21. (ii) If the catalysts and reactants are present in a different phase, the process of catalysis is called heterogeneous catalysis. For example, the manufacture of NH3<\/sub> from N2<\/sub> and H2<\/sub> by Haber’s process using iron as a catalyst (iii) This method is used for removing gangue from sulphide ores. In this powdered ore is mixed with collectors (e.g., pine oil, fatty acids etc.) and froth stabilizers (e.g., cresols, aniline) which enhance non-wettability of the mineral particles and froth stabilisation respectively. As a result of which one comes with froth and gangue remains in the solution. (ii) The process of converting a fresh precipitate into colloidal particles by shaking it with the dispersion medium in the presence of a small amount of a suitable electrolyte is called peptization.<\/p>\n (iii) The process of removal of the adsorbed substance from the surface of a solid or a liquid by heating or by reducing pressure is called desorption.<\/p>\n Question 22. (ii) In this method, impure metal is made anode and a thin sheet of pure metal is made cathode, and are put in a suitable electrolyte containing soluble salt of the same metal. On passing current the more basic metal remains in the solution and the legs basic one go to the anode and gets deposited as anode mud.<\/p>\n (iii) NaCN acts as a bleaching agent or oxidizing agent, thus oxidizes Ag to Ag+<\/sup> which then combines with CN–<\/sup> ions to form a respective soluble complex. Question 23. Question 24. (ii) Pentaamminechloridocobalt (III) chloride (iii) Potassiumtetracyanonicklate(III) Question 25. (ii) A racemic mixture is an equimolar mixture of two enantiomers and is hence optically inactive. e.g. (\u00b1 butan-2-ol)<\/p>\n (iii) The carbocation intermediate derived from C6<\/sub>H5<\/sub>CH (C6<\/sub>H5<\/sub>)Br i.e. C6<\/sub>H5<\/sub>CHC6<\/sub>H5<\/sub> is more stable as compared to the carbocation C6<\/sub>H5<\/sub>CHCH3<\/sub> obtained from C6<\/sub>H5<\/sub>CH(CH3<\/sub>)Br because it is stabilized by two phenyl groups due to resonance.<\/p>\n Question 26. Question 27. (ii) Food preservatives are chemicals used to preserve food by preventing microbial growth, e.g. Sodium benzoate, Table salt, etc.<\/p>\n (iii) The substances which are taken to neutralize the excess acid and maintaining the pH to an appropriate level in the stomach are called antacids. There are two types of antacids systemic antacids, e.g., NaHCO3<\/sub> and non-systemic e.g. Milk of magnesia.<\/p>\n Question 28. (b) Since MgBr2<\/sub> is an isotonic compound. Hence undergoes complete dissociation (b) Initial moles after dissociation Question 29. (ii) Acetophenone on treatment with I+<\/sup>2 <\/sub>NaOH undergoes iodoform test to give yellow ppt. of iodoform that benzaldehyde does not (ii) Sodium acetate undergoes decarboxylation (removal of CO2<\/sub>) in the presence of soda lime to give hydrocarbon. Question 30. Note: Except for the following questions, all the remaining questions have been asked in the previous set.<\/p>\n Question 1. Question 3. Question 4. Question 9. Answer:<\/p>\n Question 10. Question 22. (ii) Zinc acts as a reducing agent which reduces the cyanide complex of silver into pure silver. (iii) Silica is used to remove impurities in the form of metal oxides as slag. Question 24. Answer:<\/p>\n Question 27. (ii) Enzymes are biocatalysts which are structurally globular proteins. They are sensitive to a substrate, pH and temperature changes, e.g., Trypsin<\/p>\n (iii) Analgesics are chemical substances which reduces pain without causing impairment of consciousness, mental confusion, incoordination of paralysis or some other disturbance of nervous system, e.g., Aspirin, (non-narcotic analgesic) and Morphine (narcotic analgesic)<\/p>\n Question 28. (b) What would be the molar mass of a compound if 6.21 g of it dissolved in 24.0 g of chloroform form a solution that has a boiling point of 68.04\u00b0C? The boiling point of pure chloroform is 61.7\u00b0C and the boiling point elevation constant, Kb<\/sub> for chloroform is 3.63\u00b0C\/m. (ii) Raoult’s law states that for a solution with volatile components, the partial vapour pressure of each component present in the solution is proportional to its mole fraction in the solution. Note: Except for the following questions, all the remaining questions have been asked in previous sets.<\/p>\n Question 4. Question 8. Question 9. Question 10. Question 13. (ii) Manganese (Z = 25), has the maximum number of unpaired electrons. Thus, it shows oxidation states from +2 to +7 which is maximum in number as compared to other elements of transition series.<\/p>\n Question 18.
\nWhat is the structure of XeF2<\/sub> molecule? [1]
\nAnswer:
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583453911_6df6987b79_o.png?resize=127%2C145&ssl=1\")
<\/p>\n
\nWrite the IUPAC name of the following compound: (CH3<\/sub>)3<\/sub>CCH2<\/sub>Br [1]
\nAnswer:
\n1-Bromo-2, 2-dimethylpropane<\/p>\n
\nDraw the structure of 3-methylbutanal. [1]
\nAnswer:
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583453981_2f0b90e4b4_o.png?resize=192%2C64&ssl=1\")
<\/p>\n
\nArrange the following compounds in increasing order of their solubility in water: [1]
\nC6<\/sub>H5<\/sub>NH2<\/sub>, (C2<\/sub>H5<\/sub>)2<\/sub>NH, C2<\/sub>H5<\/sub>NH2<\/sub>
\nAnswer:
\nC6<\/sub>H5<\/sub>NH2<\/sub> < (C2<\/sub>H5<\/sub>)2<\/sub>NH < C2<\/sub>H5<\/sub>NH2<\/sub><\/p>\n
\nDefine Biodegradable polymers. [1]
\nAnswer:
\nBiodegradable polymers are natural polymers that disintegrated themselves over a period of time by enzymatic hydrolysis, e.g., starch, cellulose, etc.<\/p>\n
\nThe chemistry of corrosion of iron is essentially an electrochemical phenomenon. Explain the reactions occurring during the corrosion of iron in the atmosphere. [2]
\nAnswer:
\nAccording to the electrochemical theory of rusting, the impure iron surface behaves like the small electrochemical cell in the presence of water containing dissolved oxygen or carbon dioxide. In this cell pure iron acts as an anode and impure iron, the surface acts as the cathode. Moisture having dissolved CO2<\/sub> or O2<\/sub> acts as an electrolyte. The reactions at cathode and anode are as follows:
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583604852_84ff8be233_o.png?resize=374%2C233&ssl=1\")
<\/p>\n
\nDetermine the values of equilibrium constant (Kc<\/sub>) and \u0394G0<\/sup> and for the following reaction: [2]
\nNi(s) + 2Ag+<\/sup>(aq) \u2192 Ni2+<\/sup>(aq) + 2Ag(s), E0<\/sup>= 1.05V (1F = 96500 C mol-1<\/sup>)
\nAnswer:
\nAccording to the formula
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583604887_65ed9f5500_o.png?resize=345%2C249&ssl=1\")
<\/p>\n
\nDistinguish between ‘rate expression’ and ‘rate constant of a reaction. [2]
\nAnswer:
\nThe rate constant is the rate of reaction when the concentration of each reactant is taken as unity.
\nRate expression expresses the rate of reaction in terms of molar concentrations of the reactants with each term raised to their power, which may or may not be same as the stoichiometric coefficient of that reactant in the balanced chemical equation.<\/p>\n
\nGive the reason for: [2]
\n(i) The N-O bond in NO2<\/sub>–<\/sup> is shorter than the N-O bond in NO3<\/sub>–<\/sup>
\n(ii) SF6<\/sub> is kinetically an inert substance.
\nOR
\nState reasons for each of the following:
\n(i) All the P-Cl bonds in PCl5<\/sub> molecules are not equivalent.
\n(ii) Sulphur has a greater tendency for catenation than oxygen.
\nAnswer:
\n(ii) SF6<\/sub> is kinetically inert due to high oxidizing power and electronegativity of fluorine atom which causes steric hindrance and it unable to further react with any other atom.
\nOR
\n(ii) Sulphur has a much greater tendency for catenation than oxygen because of its bigger size and low electronegativity due to which the S-S bond is stronger than O-O bond and there is more interelectronic repulsion in O-O than in S-S bond.<\/p>\n
\nAssign reasons for the following: [2]
\n(i) Copper (I) ion is not known in aqueous solution.
\n(ii) Actinoids exhibit a greater range of oxidation states than lanthanoids.
\nAnswer:
\n(i) In aqueous solution, Cu+ undergoes disproportionation to form a more stable Cu2+ ion.
\n2Cu+<\/sup>(aq) \u2192 Cu2+<\/sup>(aq) + Cu(s)
\nThe higher stability of Cu2+<\/sup> ion in aqueous solution may be attributed to its greater negative \u2206hyd<\/sub>H than that of Cu+<\/sup> ion. It compensates the second ionisation enthalpy of Cu involved in the formation of Cu2+<\/sup> ions.<\/p>\n
\nExplain the following giving one example for each: [2]
\n(i) Reimer-Tieman reaction.
\n(ii) Friedel Craft’s acetylation of anisole.
\nAnswer:
\n(i) When phenol is treated with chloroform in the presence of aqueous NaOH at 340 K followed by hydrolysis gives salicylaldehyde.
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583604987_7ba8cdef2c_o.png?resize=375%2C276&ssl=1\")
<\/p>\n
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605072_4a7eac7ceb_o.png?resize=384%2C401&ssl=1\")
<\/p>\n
\nHow would you obtain: [2]
\n(i) Picric acid (2, 4, 6-Trinitrophenol) from phenol.
\n(ii) 2-Methylpropene from 2-methyl propanol?
\nAnswer:
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605112_9cf09c3253_o.png?resize=386%2C271&ssl=1\")
<\/p>\n
\nWhat is essentially the difference between the \u03b1-form of glucose and \u03b2-form of glucose? Explain. [2]
\nAnswer:
\nIn \u03b1-form of glucose, OH group lies at Cl towards the right but in \u03b2-form of glucose, it is towards left. This is because the OH group at Cl in glucose is chiral.
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583605092_6f6ee5511c_o.png?resize=395%2C292&ssl=1\")
<\/p>\n
\nDescribe what you understand by primary structure and secondary structure of proteins.[2]
\nAnswer:
\nPrimary structure of proteins refers to the sequence in which amino acids are joined together by a peptide linkage. The sequence, of amino acids in primary structure, is very specific. Any change in the sequence of amino acids creates a different protein with different biological activity.<\/p>\n
\nMention two important uses of the following [2]<\/p>\n\n
\n
\nSilver crystallizes in a face-centred cubic unit cell. Each side of this unit cell has a length of 400 pm. Calculate the radius of the silver atom. (Assume the atoms just touch each other on the diagonal across the face of the unit cell. That is each face atom is touching the four comer atoms). [3]<\/p>\n
\nNitrogen pentoxide decomposes according to the equation: [3]
\n2N2<\/sub>O5<\/sub>(g) \u2192 4NO2<\/sub>(g) + O2<\/sub>(g)
\nThe first-order reaction was allowed to proceed at 40\u00b0C and the data below were collected:
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583454401_4efcc1f0fe_o.png?resize=292%2C163&ssl=1\")
\n(i) Calculate the rate constant. Include units with your answer.
\n(ii) What will be the concentration of N2<\/sub>O5<\/sub> after 100 minutes?
\n(iii) Calculate the initial rate of reaction.
\nAnswer:
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583605207_9ae0b4bbaa_o.png?resize=335%2C524&ssl=1\")
<\/p>\n
\nExplain how the phenomenon of adsorption finds application in each of the following processes: [3]
\n(i) Production of vacuum
\n(ii) Heterogeneous catalysis
\n(iii) Froth Floatation Process
\nOR
\nDefine each of the following terms:
\n(i) Micelles
\n(ii) Peptization
\n(iii) Desorption
\nAnswer:
\n(i) In vacuum flask activated charcoal is placed between the walls of the flask so that any gas which enters into annular space either due to glass imperfection or diffusion through glass is adsorbed and create a vacuum.<\/p>\n
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583454431_279185380e_o.png?resize=238%2C49&ssl=1\")
\nIn this process, the reactants are in the gaseous phase whereas catalyst is in a solid phase.<\/p>\n
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583454486_739a5f3ed7_o.png?resize=319%2C139&ssl=1\")
\nOR
\n(i) When soaps and detergents are added to water, a cluster of the charged particle is formed by the aggregation of a variety of molecules. Thus formed is called micelle.<\/p>\n
\nDescribe the principle behind each of the following processes: [3]
\n(i) Vapour phase refining of a metal.
\n(ii) Electrolytic refining of a metal
\n(iii) Recovery of silver after silver ore was leached with NaCN.
\nAnswer:
\n(i) Vapour Phase Refining: The impure metal is first converted to its unstable volatile compound which is evaporated and then decomposed by heating at the higher temperature to give pure metal, leaving behind the impurities.<\/p>\n
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605292_f318c27b69_o.png?resize=377%2C82&ssl=1\")
<\/p>\n
\nComplete the following chemical equations: [3]
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583605332_e9b4134b1a_o.png?resize=216%2C108&ssl=1\")
\nAnswer:
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583605382_b3c48576e5_o.png?resize=377%2C154&ssl=1\")
<\/p>\n
\nWrite the name, stereochemistry and magnetic behaviour of the following: [3]
\n(At. Nos. Mn = 25, Co = 27, Ni = 28)
\n(i) K4<\/sub>[Mn(CN)6<\/sub>]
\n(ii) [CO(NH3<\/sub>)5<\/sub>Cl]Cl2<\/sub>
\n(iii) K2<\/sub>(Ni(CN)4<\/sub>]
\nAnswer:
\n(i) Potassiumhexacyanomanganate(II)
\nShape: Octahedral
\nMagnetic Behaviour: Paramagnetic (one unpaired electron)
\nHybridization: d2<\/sup>sp3<\/sup><\/p>\n
\nShape: Octahedral
\nHybridization: d2<\/sup>sp3<\/sup>
\nMagnetic Behaviour: Diamagnetic (no impaired electrons)<\/p>\n
\nShape: Square planar
\nHybridization: dsp2<\/sup>
\nMagnetic Behaviour: Diamagnetic (no impaired electrons)<\/p>\n
\nAnswer the following: [3]
\n(i) Haloalkanes easily dissolve in organic solvents, why?
\n(ii) What is known as a racemic mixture? Give an example.
\n(iii) Of the two bromo derivatives, C6<\/sub>H5<\/sub>CH(CH3<\/sub>)Br and C6<\/sub>H5<\/sub>CH(C6<\/sub>H5<\/sub>)Br, which one is more reactive in SN<\/sub>1 substitution reaction and why?
\nAnswer:
\n(i) Haloalkanes dissolve in organic solvents because the new intermolecular attraction between haloalkanes and organic solvent molecules have the same strength as the one being broken in the separate haloalkanes and solvent molecules.<\/p>\n
\n(a) Explain why an alkylamine is more basic than ammonia? [3]
\n(b) How would you convert:
\n(i) Aniline to nitrobenzene
\n(ii) Aniline to iodobenzene
\nAnswer:
\n(a) Alkyl groups are electron-donating groups and increase the electron density on nitrogen in alkylamine making them more basic than ammonia.
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605457_1f7ae4ede8_o.png?resize=377%2C343&ssl=1\")
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583605487_cfd757cfcd_o.png?resize=319%2C292&ssl=1\")
<\/p>\n
\nDescribe the following giving one example for each: [3]
\n(i) Detergents
\n(ii) Food preservatives
\n(iii) Antacids
\nAnswer:
\n(i) Detergents are soluble salts of sodium-potassium sulphonic acids unlike soaps they are non-biodegradable but they can be conveniently used both with soft and hard water, e.g. Sodium alkylbenzene sulphonate.<\/p>\n
\n(a) Differentiate between molality and molarity of a solution. How does a change in temperature influence their values? [5]
\n(b) Calculate the freezing point of an aqueous solution containing 10.50 g of MgBr2<\/sub> in 200 g of water. (Molar mass of MgBr2<\/sub> = 184 g) (Kf<\/sub> for water = 1.86 K kg mol-1<\/sup>)
\nOR
\n(a) Define the terms osmosis and osmotic pressure. Is the osmotic pressure of a solution a colligative property? Explain.
\n(b) Calculate the boiling point of a solution prepared by adding 15.00 g of NaCl to 250.0 g of water. (Kf<\/sub> for water = 0.512 K kg mol-1<\/sup>, Molar mass of NaCl = 58.44 g)
\nAnswer:
\n(a) Molarity is the number of moles of solute dissolved in 1 litre of solution. It is temperature-dependent.
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605522_200a52b841_o.png?resize=193%2C55&ssl=1\")
\nMolality is the number of moles of solute dissolved per 1 kg of the solvent. It is temperature independent.
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605547_b627eefce3_o.png?resize=124%2C60&ssl=1\")
\nMolality is independent of temperature, whereas molarity is a function of temperature because volume depends on temperature and mass does not.<\/p>\n
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605562_4c0ab56938_o.png?resize=346%2C107&ssl=1\")
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583454766_bc2631ca54_o.png?resize=291%2C279&ssl=1\")
\nOR
\n(a) Osmosis is the phenomenon of flow of solvent through a semi-permeable membrane from the region of higher concentration to the region of lower concentration.
\nThe osmotic pressure of a solution is the excess pressure that must be applied to the solution to prevent the passage of solvent molecule through a semi-permeable membrane into the solution.
\nYes, osmotic pressure is a colligative property as it depends only on the amount of solute present in the solution.<\/p>\n
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605607_3f5054ae2c_o.png?resize=255%2C400&ssl=1\")
<\/p>\n
\nGive chemical tests to distinguish between: [5]
\n(i) Propanal and propanone
\n(ii) Benzaldehyde and acetophenone
\n(b) How would obtain:
\n(i) But-2-enal from ethane
\n(ii) Butanoic acid from butanol
\n(iii) Benzoic acid from ethylbenzene
\nOR
\n(a) Describe the following giving linked chemical equations
\n(i) Cannizzaro reaction
\n(ii) Decarboxylation
\n(b) Complete the following chemical equations:
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583605617_4580463a60_o.png?resize=246%2C225&ssl=1\")
\nAnswer:
\n(a) (i) Propanal on treatment with Fehling’s solution gives a red ppt. of cuprous oxide while propanone does not respond to this test.
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583454846_218b189258_o.png?resize=369%2C115&ssl=1\")
<\/p>\n
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583454896_819bccf3f4_o.png?resize=423%2C328&ssl=1\")
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583605697_c384eea04c_o.png?resize=305%2C236&ssl=1\")
\nOR
\n(a) (i) An aldehyde with no \u03b1-hydrogen atom undergoes self-reduction and oxidation in presence of cone, alkali to form alcohol and carboxylic acid salt.
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583605717_ebf3dc6680_o.png?resize=428%2C112&ssl=1\")
<\/p>\n
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605737_314b60969f_o.png?resize=429%2C315&ssl=1\")
<\/p>\n
\n(a) Explain the following: [5]
\n(i) NF3<\/sub> is an exothermic compound whereas NCl3<\/sub> is not.
\n(ii) F2<\/sub> is most reactive of all the four common halogens.
\n(b) Complete the following chemical equations:
\n(i) C + H2<\/sub>SO4<\/sub> (conc) \u2192
\n(ii) P4<\/sub> + NaOH+ H2<\/sub>O \u2192
\n(iii) Cl2<\/sub> + F2<\/sub> \u2192
\nOR
\n(a) Account for the following:
\n(i) The acidic strength decreases in the order HCl > H2<\/sub>S > PH3<\/sub>
\n(ii) A tendency to form pentahalides decreases down the group in group 15 of the periodic table.
\n(b) Complete the following chemical equations:
\n(i) P4<\/sub> + SO2<\/sub>Cl2<\/sub> \u2192
\n(ii) XeF2<\/sub> + H2<\/sub>O \u2192
\n(iii) I2<\/sub> + HNO3<\/sub> (conc.) \u2192
\nAnswer:
\n(a) (ii) Fluorine is most reactive of all the four common halogens because of its low bond dissociation energy due to which it readily dissociates into atoms and reacts with other substances readily.
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583605747_1921599904_o.png?resize=344%2C122&ssl=1\")
\n(a) (i) Because of the decrease in electronegativity from chlorine to phosphorus, the dissociation enthalpy from HCl to HP increases, and their tendency to release H+<\/sup> ion decreases and thus acidic strength decreases.
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583455031_94d15230ce_o.png?resize=374%2C141&ssl=1\")
<\/p>\nCBSE Previous Year Question Papers Class 12 Chemistry 2011 Delhi Set II<\/h3>\n
\nWhich stoichiometric defect in crystals decreases the density of a solid? [1]<\/p>\n
\nWhat is meant by shape-selective catalysis of reactions? [1]
\nAnswer:
\nThe reaction that depends for shape-selective catalysts uses zeolites as a catalyst for reaction on the shape and size of pores and of reactants and products.<\/p>\n
\nDraw the structure of XeF4<\/sub> molecule [1]
\nAnswer:
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583605797_12e65b7da0_o.png?resize=168%2C157&ssl=1\")
<\/p>\n
\nExplain what is meant by<\/p>\n\n
\n
\nName the bases present in RNA. Which one of these is not present in DNA. [2]
\nAnswer:
\nFour bases present in RNA are Adenine, Guanine, Cytosine and Uracil. Uracil is not present in DNA.<\/p>\n
\nExplain the role of each the following in the extraction of metals from their ores: [3]
\n(i) CO in the extraction of nickel.
\n(ii) Zinc in the extraction of silver.
\n(iii) Silica in the extraction of copper.
\nAnswer:
\n(i) CO is used in the vapour phase refining of nickel.
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583455106_c52d119cc2_o.png?resize=226%2C86&ssl=1\")
<\/p>\n
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583455141_ac24267539_o.png?resize=374%2C63&ssl=1\")
<\/p>\n
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583455176_cdf8cddd6e_o.png?resize=172%2C52&ssl=1\")
<\/p>\n
\nFor the complex [Fe(en)2<\/sub>Cl2<\/sub>]Cl, identify the following: [3]<\/p>\n\n
\n
\nExplain the following terms with one suitable example for each: [3]
\n(i) A sweetening agent for diabetic patients
\n(ii) Enzymes
\n(iii) Analgesics
\nAnswer:
\n(i) Artificial Sweetening agents are chemicals that sweeten food. However, unlike natural sweeteners, they do not add calories to the body, not harmful to diabetic patients, e.g. Saccharin, aspartame.<\/p>\n
\n(a) State the following: [5]
\n(i) Henry’s law about partial pressure of a gas in a mixture.
\n(ii) Raoult’s law in its general form in reference to solutions.
\n(b) A solution prepared by dissolving 8.95 mg of a gene fragment in 35.0 mL of water has an osmotic pressure of 0.335 torrs at 25\u00b0C. Assuming the gene fragment is non-electrolyte, find its molar mass.
\nOR
\n(a) Difference between molarity and molality in a solution. What is the effect of temperature change on molarity and molality in a solution?<\/p>\n
\nAnswer:
\n(a) (i) Henry’s law states that the partial pressure of the gas in vapour phase is directly proportional to its mole fraction in the solution.<\/p>\n
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583455216_953ac4b772_o.png?resize=325%2C178&ssl=1\")
\nSubstituting all the values in the given formula
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583605912_471005f05d_o.png?resize=99%2C87&ssl=1\")
\nOR
\n(a) Molarity is defined as the number of moles of solute present in 1 litre of solution, while molality is defined as the number of moles of solute present in 1 kg of solvent. Molality does not have any effect of change in temperature because mass does not changes with temperature, whereas molarity changes with temperature.
\n![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583455276_86a5314da5_o.png?resize=373%2C316&ssl=1\")
<\/p>\nCBSE Previous Year Question Papers Class 12 Chemistry 2011 Delhi Set III<\/h3>\n
\nDraw the structure of BrF3<\/sub> molecule [1]
\nAnswer:
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583453836_ab4e362b08_o.png?resize=223%2C228&ssl=1\")
<\/p>\n
\nIn nylon 6, 6 what does the designation 6, 6′ mean? [1]
\nAnswer:
\n6, 6-refers to the number of carbon atoms in each of its monomer, adipic acid and hexamethylenediamine<\/p>\n
\nWhat type of battery is lead storage battery? Write the anode and the cathode reactions and the overall reactions occurring in a lead storage battery. [2]
\nAnswer
\nThe lead storage battery is a secondary cell which is rechargeable. During discharging, the electrode reaction occurs as follows:
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583604562_a491cd6cdd_o.png?resize=373%2C215&ssl=1\")
<\/p>\n
\nTwo half-reactions of an electrochemical cell are given below:
\n![\"CBSE](\"https:\/\/i1.wp.com\/live.staticflickr.com\/65535\/48583604352_3bf4460076_o.png?resize=372%2C53&ssl=1\")
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583453716_1de0438374_o.png?resize=308%2C33&ssl=1\")
\nConstruct the redox equation from the standard potential of the cell and predict it the reaction is reactant favoured or product favoured. [2]
\nAnswer:
\nThe redox reactions at anode and cathode can be represented as:
\n![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583453691_f140bb5e2b_o.png?resize=378%2C416&ssl=1\")
<\/p>\n
\nAssign reasons for each of the following: [2]
\n(i) Transition metals generally form coloured compounds.
\n(ii) Manganese exhibits the highest oxidation state of +7 among the 3d series of transition elements.
\nAnswer:
\n(i) Due to the presence of unpaired electrons and d-d transition, the transition metals are generally coloured.<\/p>\n
\nName the sub-groups into which polymers are classified on the basis of the magnitude of intermolecular forces. [2]
\nAnswer:<\/p>\n
![\"CBSE](\"https:\/\/i0.wp.com\/live.staticflickr.com\/65535\/48583604237_e28e173756_o.png?resize=340%2C188&ssl=1\")
![\"CBSE](\"https:\/\/i2.wp.com\/live.staticflickr.com\/65535\/48583604317_031e9f8ab1_o.png?resize=403%2C298&ssl=1\")
<\/p>\n