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ISC Class XII Analysis Of Pupil Performance 2019 : Chemistry

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ISC Analysis of Pupil Performance CHEMISTRY S Research Development and Consultancy Division Council for the Indian School Certificate Examinations New Delhi Year 2019 __________________________________________________________________________________ Published by: Research Development and Consultancy Division (RDCD) Council for the Indian School Certificate Examinations Pragati House, 3rd Floor 47-48, Nehru Place New Delhi-110019 Tel: (011) 26413820/26411706 E-mail: council@cisce.org Copyright, Council for the Indian School Certificate Examinations All rights reserved. The copyright to this publication and any part thereof solely vests in the Council for the Indian School Certificate Examinations. This publication and no part thereof may be reproduced, transmitted, distributed or stored in any manner whatsoever, without the prior written approval of the Council for the Indian School Certificate Examinations. FOREWORD This document of the Analysis of Pupils Performance at the ISC Year 12 and ICSE Year 10 Examination is one of its kind. It has grown and evolved over the years to provide feedback to schools in terms of the strengths and weaknesses of the candidates in handling the examinations. We commend the work of Mrs. Shilpi Gupta (Deputy Head) of the Research Development and Consultancy Division (RDCD) of the Council and her team, who have painstakingly prepared this analysis. We are grateful to the examiners who have contributed through their comments on the performance of the candidates under examination as well as for their suggestions to teachers and students for the effective transaction of the syllabus. We hope the schools will find this document useful. We invite comments from schools on its utility and quality. Gerry Arathoon Chief Executive & Secretary October 2019 i PREFACE The Council has been involved in the preparation of the ICSE and ISC Analysis of Pupil Performance documents since the year 1994. Over these years, these documents have facilitated the teaching-learning process by providing subject/ paper wise feedback to teachers regarding performance of students at the ICSE and ISC Examinations. With the aim of ensuring wider accessibility to all stakeholders, from the year 2014, the ICSE and the ISC documents have been made available on the Council s website www.cisce.org. The documents include a detailed qualitative analysis of the performance of students in different subjects which comprises of examiners comments on common errors made by candidates, topics found difficult or confusing, marking scheme for each question and suggestions for teachers/ candidates. In addition to a detailed qualitative analysis, the Analysis of Pupil Performance documents for the Examination Year 2019 also have a component of a detailed quantitative analysis. For each subject dealt with in the document, both at the ICSE and the ISC levels, a detailed statistical analysis has been done, which has been presented in a simple user-friendly manner. It is hoped that this document will not only enable teachers to understand how their students have performed with respect to other students who appeared for the ICSE/ISC Year 2019 Examinations, but also provide information on how they have performed within the Region or State, their performance as compared to other Regions or States, etc. It will also help develop a better understanding of the assessment/ evaluation process. This will help teachers in guiding their students more effectively and comprehensively so that students prepare for the ICSE/ ISC Examinations, with a better understanding of what is required from them. The Analysis of Pupil Performance document for ICSE for the Examination Year 2019 covers the following subjects: English (English Language, Literature in English), Hindi, History, Civics and Geography (History and Civics, Geography), Mathematics, Science (Physics, Chemistry, Biology), Commercial Studies, Economics, Computer Applications, Economic Applications, Commercial Applications. Subjects covered in the ISC Analysis of Pupil Performance document for the Year 2019 include English (English Language and Literature in English), Hindi, Elective English, Physics (Theory), Chemistry (Theory), Biology (Theory), Mathematics, Computer Science, History, Political Science, Geography, Sociology, Psychology, Economics, Commerce, Accounts and Business Studies. I would like to acknowledge the contribution of all the ICSE and the ISC examiners who have been an integral part of this exercise, whose valuable inputs have helped put this document together. I would also like to thank the RDCD team of Dr. M.K. Gandhi, Dr. Manika Sharma, Mrs. Roshni George and Mrs. Mansi Guleria who have done a commendable job in preparing this document. Shilpi Gupta Deputy Head - RDCD October 2019 ii CONTENTS Page No. FOREWORD i PREFACE ii INTRODUCTION 1 QUANTITATIVE ANALYSIS 3 QUALITATIVE ANALYSIS 10 INTRODUCTION This document aims to provide a comprehensive picture of the performance of candidates in the subject. It comprises of two sections, which provide Quantitative and Qualitative analysis results in terms of performance of candidates in the subject for the ISC Year 2019 Examination. The details of the Quantitative and the Qualitative analysis are given below. Quantitative Analysis This section provides a detailed statistical analysis of the following: Overall Performance of candidates in the subject (Statistics at a Glance) State wise Performance of Candidates Gender wise comparison of Overall Performance Region wise comparison of Performance Comparison of Region wise performance on the basis of Gender Comparison of performance in different Mark Ranges and comparison on the basis of Gender for the top and bottom ranges Comparison of performance in different Grade categories and comparison on the basis of Gender for the top and bottom grades The data has been presented in the form of means, frequencies and bar graphs. Understanding the tables Each of the comparison tables shows N (Number of candidates), Mean Marks obtained, Standard Errors and t-values with the level of significance. For t-test, mean values compared with their standard errors indicate whether an observed difference is likely to be a true difference or whether it has occurred by chance. The t-test has been applied using a confidence level of 95%, which means that if a difference is marked as statistically significant (with * mark, refer to t-value column of the table), the probability of the difference occurring by chance is less than 5%. In other words, we are 95% confident that the difference between the two values is true. t-test has been used to observe significant differences in the performance of boys and girls, gender wise differences within regions (North, East, South and West), gender wise differences within marks ranges (Top and bottom ranges) and gender wise differences within grades awarded (Grade 1 and Grade 9) at the ISC Year 2019 Examination. The analysed data has been depicted in a simple and user-friendly manner. 1 Given below is an example showing the comparison tables used in this section and the manner in which they should be interpreted. The table shows comparison between the performances of boys and girls in a particular subject. The t-value of 11.91 is significant at Comparison on the basis of Gender Gender Girls Boys *Significant at 0.05 level N 2,538 1,051 Mean 66.1 60.1 SE 0.29 0.42 t-value 11.91* 0.05 level (mentioned below the table) with a mean of girls as 66.1 and that of boys as 60.1. It means that there is significant difference between the performance of boys and girls in the subject. The probability of this difference occurring by chance is less than 5%. The mean value of girls is higher than that of boys. It can be interpreted that girls are performing significantly better than boys. The results have also been depicted pictographically. In this case, the girls performed significantly better than the boys. This is depicted by the girl with a medal. Qualitative Analysis The purpose of the qualitative analysis is to provide insights into how candidates have performed in individual questions set in the question paper. This section is based on inputs provided by examiners from examination centres across the country. It comprises of question wise feedback on the performance of candidates in the form of Comments of Examiners on the common errors made by candidates along with Suggestions for Teachers to rectify/ reduce these errors. The Marking Scheme for each question has also been provided to help teachers understand the criteria used for marking. Topics in the question paper that were generally found to be difficult or confusing by candidates, have also been listed down, along with general suggestions for candidates on how to prepare for the examination/ perform better in the examination. 2 STATISTICS AT A GLANCE Total Number of Candidates: 44,214 Mean Marks: Highest Marks: 100 65.0 Lowest Marks: 07 3 PERFORMANCE (STATE-WISE & FOREIGN) West Bengal 66.3 Uttarakhand 64.9 Uttar Pradesh 63.1 Tripura 56.0 Telangana 61.3 Tamil Nadu 73.5 Sikkim 57.1 Rajasthan 64.3 Punjab 62.1 Odisha 59.5 New Delhi 69.9 Meghalaya 62.1 Manipur 45.2 Maharashtra 72.9 Madhya Pradesh 63.9 Kerala 71.9 Karnataka 72.4 Jharkhand 60.4 Himachal Pradesh 66.7 Haryana 72.3 Gujarat 69.4 Chhattisgarh 54.9 Chandigarh 69.3 Bihar 64.6 Assam 79.9 Andhra Pradesh 67.3 Foreign 75.6 The States of Assam, Tamil Nadu and Maharashtra secured highest mean marks. Mean marks secured by candidates studying in schools abroad were 75.6. 4 GENDER-WISE COMPARISON BOYS GIRLS Mean Marks: 65.9 Mean Marks: 64.4 Candidates: 18,156 Candidates: 26,058 Number of Number of Comparison on the basis of Gender Gender Girls Boys *Significant at 0.05 level N Mean SE t-value 18,156 26,058 65.9 64.4 0.12 0.10 9.13* Girls performed significantly better than boys. 5 REGION-WISE COMPARISON East North Mean Marks: 64.5 Mean Marks: 63.4 Number of Candidates: 13,484 Number of Candidates: 23,705 Highest Marks: 100 Lowest Marks: 16 Highest Marks: 100 Lowest Marks: 07 REGION Mean Marks: 71.4 Mean Marks: 71.3 Number of Candidates: 4,768 Number of Candidates: 2,078 Highest Marks: 100 Lowest Marks: 20 South Mean Marks: 75.6 Number of Candidates: 179 Highest Marks: 100 Lowest Marks: 35 Foreign 6 Highest Marks: 100 Lowest Marks: 25 West Mean Marks obtained by Boys and Girls-Region wise 63.9 63.0 North 65.2 72.6 64.0 East 72.8 70.3 South 74.4 70.3 West 76.5 Foreign Comparison on the basis of Gender within Region Region Gender North (N) East (E) South (S) West (W) Foreign (F) Girls Boys Girls Boys Girls Boys Girls Boys Girls Boys N Mean SE 9,500 14,205 5,420 8,064 2,304 2,464 857 1,221 75 104 63.9 63.0 65.2 64.0 72.6 70.3 72.8 70.3 74.4 76.5 0.16 0.14 0.22 0.19 0.30 0.31 0.55 0.48 1.90 1.62 *Significant at 0.05 level The performance of girls was significantly better than that of boys in all the regions except foreign region wherein there is no significant difference between the performance of girls and boys . 7 t-value 3.98* 4.27* 5.33* 3.42* -0.82 MARK RANGES : COMPARISON GENDER-WISE Comparison on the basis of gender in top and bottom mark ranges Marks Range Top Range (81-100) Bottom Range (0-20) Gender Girls Boys Girls Boys N Mean SE 3,931 5,373 4 11 88.3 88.5 16.8 16.9 0.08 0.07 2.29 1.27 Boys Girls t-value -1.47 -0.06 All Candidates 88.5 81 - 100 88.3 88.4 69.9 61 - 80 70.0 70.0 51.1 41 - 60 51.7 51.4 36.2 21 - 40 36.4 36.2 16.9 0 - 20 16.8 16.9 8 GRADES AWARDED : COMPARISON GENDER-WISE Comparison on the basis of gender in Grade 1 and Grade 9 Grades Grade 1 Grade 9 Gender N Mean SE Girls Boys Girls Boys 1,554 2,212 230 504 93.6 93.7 31.2 30.9 0.07 0.06 0.22 0.17 Boys Girls t-value -0.57 1.27 All Candidates 93.7 93.6 93.7 1 84.3 84.4 84.3 2 74.3 74.3 74.3 3 64.4 64.5 64.4 4 56.9 56.9 56.9 5 52.0 52.2 52.1 6 47.1 47.0 47.0 7 8 9 9 40.4 40.5 40.4 30.9 31.2 31.0 THEORY (PAPER 1) Question 1 (a) Fill in the blanks by choosing the appropriate word/words from those given in the [4 1] brackets: (more than, primary, cathode, Lucas reagent, two, four, less than, Grignard s reagent, tertiary, anode, zero, equal to, three) (i) The elevation of boiling point of 0 5 M K 2 SO 4 solution is ___________that of 0 5 M urea solution. The elevation of boiling point of 0 5 M KCl solution is __________ that of 0 5 M K 2 SO 4 solution. (ii) A mixture of conc. HCl and anhydrous ZnCl 2 is called __________ which shows maximum reactivity with _________ alcohol. (iii) In electrolytic refining the impure metal is made __________ while a thin sheet of pure metal is used as _________. (iv) When the concentration of a reactant of first order reaction is doubled, the rate of reaction becomes _________ times, but for a __________ order reaction, the rate of reaction remains the same. (b) Select the correct alternative from the choices given: (i) (ii) The cell reaction is spontaneous or feasible when emf of the cell is: (1) negative (2) positive (3) zero (4) either positive or negative Which, among the following polymers, is a polyester: (1) melamine (2) bakelite (3) terylene (4) Polythene 10 [4 1] (iii) The correct order of increasing acidic strength of the oxoacids of chlorine is: (1) HClO 3 < HClO 4 < HClO 2 < HClO (2) HClO < HClO 2 < HClO 3 < HClO 4 (3) HClO 2 < HClO < HClO 4 < HClO 3 (4) HClO 3 < HClO 4 < HClO < HClO 2 (iv) A catalyst is a substance which: (1) changes the equilibrium constant of the reaction. (2) increases the equilibrium constant of the reaction. (3) supplies energy to the reaction. (4) shortens the time to reach equilibrium. (c) Match the following: [4 1] (i) Diazotisation (a) Anisotropic (ii) Crystalline solid (b) Reimer-Tiemann reaction (iii) Phenol (c) Diphenyl (iv) Fittig reaction (d) Aniline (d) Answer the following questions: (i) (ii) [4 2] (1) Which trivalent ion has maximum size in the Lanthanoid series i.e. Lanthanum ion (La3+) to Lutetium ion (Lu3+)? (at. no. of Lanthanum = 57 and Lutetium = 71) (2) Explain why Cu2+ is paramagnetic but Cu+ is diamagnetic. (at. no. of Cu = 29) When a coordination compound CoCl 3 6NH3 is mixed with AgNO3, three moles of AgCl are precipitated per mole of the compound. Write the structural formula and IUPAC name of the coordination compound. (iii) Calculate the boiling point of urea solution when 6 g of urea is dissolved in 200 g of water. (Kb for water = 0 52 K kg mol-1, boiling point of pure water = 373 K, mol. wt. of urea = 60) (iv) Identify HC CH the compounds A, B, C and D in the H 2O Ca (OH )2 [O ] A K 2Cr2O7 + H 2 SO4 B C Hg 2+ / H 2 SO4 11 given reaction: heat dry distillation D Comments of Examiners (a) (i) Some candidates wrote less than and more than instead of more than and less than. A few candidates wrote only more and less. (ii) Some candidates wrote only Lucas instead of Lucas reagent in the first blank. For the second blank, instead of tertiary some candidates wrote primary. (iii) Many candidates interchanged the answer writing cathode and anode instead of anode and cathode. (iv) Majority of candidates wrote the digits (2, 4, 0), which were not mentioned in the list of words, in place of the words. Some candidates wrote double instead of two in the first blank, while a few candidates wrote two instead of zero in the second blank. (b) (i) Some candidates wrote negative or either positive or negative instead of positive which was the correct answer. (ii) Instead of terylene, a few candidates wrote polythene, melamine, or bakelite. (iii) A few candidates wrote the incorrect option for the correct order of increasing acidic strength of the oxoacids of chlorine such as HClO3 < HClO4 < HClO2 < HClO. (iv) Some candidates, instead of writing shortens the time to reach equilibrium, wrote supplies energy to the reaction. A few candidates wrote changes the equilibrium constant of the reaction. (c) Most of the candidates matched the given items correctly. However, some candidates matched diazotisation with Diphenyl , Fittig reaction with Anisotropic and Phenol with Aniline . (d) (i) (1) Most of the candidates wrote the correct answer. (2) Most candidates did not write the correct explanation for the paramagnetic character of Cu2+ and diamagnetic character of Cu+. Some candidates did not write the correct electronic configuration of Cu2+ and Cu+. (ii) Many candidates did not write the correct IUPAC name of the compound. Several candidates were unable to write the oxidation state of the central metal atoms. A few candidates, instead of writing the correct formula [Co(NH3)6]Cl3 wrote [Co(NH3)6]NO3. 12 Suggestions for teachers - Advise to pick the words given as such from the brackets rather than writing their own. - Clearly explain the relationship between magnitude of colligative property and the number of moles. - Discuss the application of Lucas Reagent in detail. - Explain the process of electro refining thoroughly. - Clearly discuss the relationship between the rate of reaction and the concentration of different order reactions. - Explain to the students, the relationship between the spontaneity and the emf of the cell. - Advise students to learn Monomers and their polymers in a tabular form. - Teach acidic strength of oxo acids using oxidation number. - Explain the correct definition and the role of catalyst in a chemical reaction. - Give adequate practice for different named organic reactions. - Teach the properties of crystalline solids to the students in detail. explain Lanthanoid - Clearly contraction to students. - Discuss diamagnetic and paramagnetic behaviour of ions in detail. - Point out to the students the electronic configuration for atoms as well as ions clearly. - Interpret to the students the structural formula and IUPAC names of coordination compounds. - Give adequate practice to the students for the calculation of Tb . - Explain to the students that the boiling point of the solution is always more than boiling point of the solvent. - Give adequate practice to students on conversion of organic compounds. (iii) Several candidates wrote the boiling point of urea as 372.74 K instead of 373.26 K. A few candidates, instead of adding Tb to the boiling point of the solvent, subtracted the value of Tb from the boiling point of the solvent. (iv) Most of the candidates identified the compound A as CH2=CHOH instead of CH3CHO, B as CH3CHO instead of CH3COOH. Many candidates were unable to identify compounds C and D in the given reaction. MARKING SCHEME Question 1 (a) (b) (c) (d) (i) More than, less than (ii) Lucas reagent, tertiary (iii) Anode, cathode (iv) Two, zero (i) 2 or positive (ii) 3 or terylene (iii) 2 or HClO < HClO2 < HClO3 < HClO4 (iv) 4 or shortens the time to reach equilibrium (i) Diazotisation (d) Aniline (ii) Crystalline solid (a) Anisotropic (iii) Phenol (b) Reimer-Tiemann reaction (iv) (i) (ii) (iii) Fittig reaction (c) Diphenyl 3+ (1) La (2) Cu2+ is paramagnetic because it contains unpaired electron in d orbital, Cu+ is diamagnetic as no unpaired electron is present. [Co(NH3)6] Cl3 hexaammine cobalt (III) chloride 1000 = OR = 1000 0 52 6 60 200 = 0 26 K Boiling point of solution = 373 + 0 26 = 373 26 K (iv) A = CH3CHO B = CH3COOH C = (CH3COO)2Ca D = CH3COCH3 13 [2] Question 2 (a) For the reaction A + B C + D, the initial rate for different reactions and initial concentration of reactants are given below: S. No. 1 2 3 4 5 Initial Conc. [A] mole L-1 [B] mole 1 0 2 0 4 0 1 0 1 0 1 0 1 0 1 0 2 0 4 0 (i) What is the overall order of reaction? (ii) Write the rate law equation. L-1 Initial rate (mole L-1 sec-1) 2 10-3 4 10-3 8 10-3 2 10-3 2 10-3 OR (b) 25% of a first order reaction is completed in 30 minutes. Calculate the time taken in minutes for the reaction to go to 90% completion. Comments of Examiners (a) (i) Although majority of the candidates found the individual order with respect to each reactant [A] and [B] correctly, they did not write the overall order of the reaction correctly. (ii) Some candidates, instead of writing rate = k[A]1[B]0, wrote the rate law equation incorrectly, e.g. rate = [A]1[B]0. A few candidates wrote rate = 2 x 10-3 [1]1[1]0. (b) Some candidates used the incorrect formula for the 1st order rate constant. A few candidates calculated the incorrect value of rate constant. According to the question, the answer was supposed to be given in minutes for 90% completion of the reaction, but a few candidates expressed the answer in seconds. 14 Suggestions for teachers - Explain clearly with examples, the calculation of the order of the reaction and rate law equation for different order reaction. - Give adequate practice of numerical problems of first order reaction in chemical kinetics. - Insist that the students write the correct unit for time and rate constant. MARKING SCHEME Question 2 (a) (i) Overall order of reaction = 1 + 0 = 1 (ii) Rate Law equation= rate = k[A]1 [B]o OR rate = k[A] OR (b) a = 100, x = 25, k= 2 303 log10 k= 2 303 log10 k= 2 303 log10 30 30 t = 30 min or ( ) 100 (100 25) or 100 75 k = 9 59 10-3min-1 t= 2 303 log 100 (100 90) t = 240 15 min. 2 303 or = 9 59 10 3 log10 100 10 [2] Question 3 (i) Name the type of drug which lowers the body temperature in high fever condition. (ii) What are tranquilizers? Give one example of a tranquilizer. Comments of Examiners (i) Many candidates, instead of writing antipyretics as the answer, wrote analgesics. A few candidates wrote names of medicines such as paracetamol, aspirin, etc. (ii) Majority of the candidates did not write the correct definition of tranquilizer . Many candidates did not give the correct example. . 15 Suggestions for teachers - Discuss the unit Chemistry in everyday life in detail. - With suitable examples, illustrate the use of chemicals in medicine. - Teach definitions with suitable examples. - Advise the students to do the selfstudy of this topic several times. MARKING SCHEME Question 3 (i) Antipyretics (ii) The chemical substances used for the treatment of stress, mild and severe mental diseases, anxiety and induce sleep are called tranquilizers. Examples: Equanil, veronal, valium, etc. (any one) (or any other correct example) Question 4 [2] Write the balanced chemical equation for each of the following: (i) Chlorobenzene treated with ammonia in the presence of Cu2O at 475 K and 60 atm. (ii) Ethyl chloride treated with alcoholic potassium hydroxide. Comments of Examiners (i) Majority of the candidates did not write the by-product i.e., HCl. A few candidates wrote C6H5N2Cl in place of C6H5NH2. (ii) Many candidates, instead of writing that the reaction of C2H5Cl with alcoholic KOH gives ethene (C2H4), wrote that C2H5OH and KCl are formed. Suggestions for teachers - Lay stress on the importance of writing balanced chemical equations. - Clarify to the students that Ethyl chloride when treated with alcoholic KOH undergoes dehydrohalogenation reaction whereas aqueous KOH undergoes hydrolysis. MARKING SCHEME Question 4 (i) 475 2C6H5Cl + 2NH3 + Cu2O 60 2 C6H5NH2+Cu2Cl2 + H2O OR C6H5Cl + NH3 (ii) Cu2O, 475 60 C6H5NH2+HCl CH3CH2Cl + KOH (alc) CH2 = CH2 + KCl + H2O 16 Question 5 [2] (i) Name the monomer and the type of polymerisation that takes place when PTFE is formed. (ii) Name the monomers of nylon 6, 6. Comments of Examiners (i) Majority of the candidates wrote the correct name of the monomer i.e. tetrafluoroethene. However, some candidates wrote tetrafluoroethane. A few candidates wrote condensation polymerisation instead of addition polymerisation. (ii) Many candidates wrote Hexamethyldiamine instead of Hexamethylenediamine. Some candidates wrote only one monomer instead of two. A few candidates wrote the name of the monomer as Caprolactum which is a monomer of Nylon 6. Suggestions for teachers - Clarify polymer to the students explaining their formation by writing the reaction. - Teach students to write polymers and monomers and their uses in a tabular form. Ask them to learn the correct pair of monomers for a polymer. MARKING SCHEME Question 5 (i) CF2 = CF2, Addition Polymerisation (ii) hexamethylenediamine and adipic acid [2] Question 6 Name two water soluble vitamins and the diseases caused by their deficiency in the diet of an individual. Comments of Examiners Some candidates, instead of writing Vitamins B and C as water soluble vitamins, wrote the incorrect answers such as A, D and E which are fat soluble vitamins. Deficiency diseases for water soluble vitamins were not written correctly by a few candidates. 17 Suggestions for teachers - Clearly explain the types of vitamins, their sources and diseases caused by their deficiency. - Help students differentiate between water soluble and fat soluble vitamins. MARKING SCHEME Question 6 Water soluble vitamins are B and C. Disease caused by deficiency of vitamin B are beriberi, dermatitis, pernicious anaemia, etc. Disease caused by deficiency of vitamin C is Scurvy. [2] Question 7 (a) How will you obtain the following (give balanced chemical equations)? (i) Benzene from phenol. (ii) Iodoform from ethanol. OR (b) How will you obtain the following (give balanced chemical equations)? (i) Salicylaldehyde from phenol. (ii) Propan 2 ol from Grignard s reagent. Comments of Examiners (a) (i) Most of the candidates did not write ZnO as a by-product. Many candidates did not show heating. (ii) Several candidates did not write the complete reaction including the by-product. In some answer scripts the equation was unbalanced. A few candidates wrote incorrect formula for iodoform. (b) (i) Common errors made by candidates were: Equations were not balanced; The formula for salicylaldehyde was written as 4-hydroxybenzaldehyde, instead of 2-hydroxybenzaldehyde. (ii) Majority of candidates wrote incomplete equations. Some candidates did not write the by-product Mg(OH)Br. Some candidates did not write H2O for hydrolysis. 18 Suggestions for teachers - Explain clearly to the students that the by-product/s in all the organic reactions must be written. - Give adequate practice in writing conversion of organic compounds with balanced equations. - Train students in writing balanced organic reactions. - Teach named organic reactions with proper conditions, catalyst and formulas for the reactants and products. MARKING SCHEME Question 7 (a) (i) C6H5OH + Zn Phenol (ii) CH3CH2OH + 4I2 + 6NaOH ethanol C6H6 + ZnO Benzene CHI3+ HCOONa + 5NaI + 5H2O Iodoform OR (b) (i) OH O CHCl3 + 3KOH Phenol 340 OH (ii) CH3 C = O + CH3 MgBr H acetaldehyde CHO + 3KCl + 2H2O Salicylaldehyde HOH H+ O CH3 CH3 C OH + Mg OH Br H Propan-2-ol [2] Question 8 Show that for a first order reaction the time required to complete 75% of reaction is about 2 times more than that required to complete 50% of the reaction. Comments of Examiners Majority of the candidates attempted this question well. Some candidates wrote incorrect formula for 1st order kinetics. A few candidates substituted the value of (a - x) as 75 instead of 25. 19 Suggestions for teacher Give adequate practice to students in solving numerical problems based on order of reactions, rate constant and halflife period. MARKING SCHEME Question 8 k= 2 303 t75% = t75% = t75% = t50% = t50% = or = log10 2 303 2 303 1 386 2 303 2 303 0 693 log or 100 25 or log 0.602 log 100 50 log 2 or = 2 303 0.3010 From the values calculated t75% is 2 times more than t50% [3] Question 9 (a) When 0 4g of oxalic acetic acid is dissolved in 40g of benzene, the freezing point of the solution is lowered by 0 45K. Calculate the degree of association of acetic acid. Acetic acid forms dimer when dissolved in benzene. (Kf for benzene = 5 12 K kg mol-1, at. wt. C = 12, H = 1, O = 16) OR (b) A solution is prepared by dissolving 9 25g of non-volatile solute in 450ml of water. It has an osmotic pressure of 350mm of Hg at 27 C. Assuming the solute is non-electrolyte, determine its molecular mass. (R = 0 0821 lit atm K-1 mol-1) 20 Comments of Examiners (a) Most of the candidates were able to calculate the value of van t Hoff factor i correctly. Some candidates were unable to calculate the correct value for the degree of association ( ). (b) Although most of the candidates used the correct formula for the calculation of molecular mass of non-volatile solute by using osmotic pressure method, some substituted the incorrect values in the formula. Many candidates did not convert the osmotic pressure and the volume of water correctly as per the requirement of the problem. Some candidates, instead of taking the value of R as 0.0821 took it as 8.314. . Suggestions for teachers - Clearly explain to the students, the calculation of van t Hoff factor (i) along with degree of dissociation / association. - Give adequate practice in solving numerical problems for calculation of molecular weight of non-volatile substances. - Tell students that in osmotic pressure method, the involved physical quantities like temperature, volume and the osmotic pressure should be substituted in the formula in appropriate units. - Advise students to take the value of constant as provided in the question paper , with proper units. MARKING SCHEME Question 9 (a) M(obs) = 1000 . or 1000 5 12 0 4 0 45 40 = 113 77 g mol-1 = Van t Hoff factor (i) = i = 0 527 Degree of association ( ) = 1 1 1 or 1 0 527 1 2 1 = 0 946 = 94 6% OR 21 = 60 113 77 (b) Given: w = 9 25 g, V = 450 mL R = 0 0821 L atm K-1 mol-1 T = 273 + 27 = 300 K , = 350 450 1000 = 760 m= 450 = 1000 = 0 45 litre 350 = 760 = 0 46 9 25 0 0821 300 9 25 0 0821 300 350 450 760 1000 = 1099 36 g mol-1 [3] Question 10 An element occurs in body centered cubic structure. Its density is 8 0 g/cm3. If the cell edge is 250 pm, calculate the atomic mass of an atom of this element. (NA = 6 023 1023) Comments of Examiners Most of the candidates attempted this question correctly. Some candidates did not convert the edge length into cm from pm . A few candidates took the value of Z (number of atoms) for body centered cubic unit cell as four instead of two. Suggestions for teachers - Give adequate practice in solving numerical problems based on density of unit cell. - Explain the different types of unit cells, the unit of density and edge length of the unit cell. MARKING SCHEME Question 10 Given: a = 250 pm = 250 10-10 cm Density ( ) = 8g cm-3, z = 2 (for bcc) NA = 6 023 1023 Density ( ) = M= M= 3 or 3 8 0 6 023 1023 (250 10 10 )3 M = 37 64 g mol 2 -1 22 [3] Question 11 Describe the role of the following: (i) Cryolite in the extraction of aluminium from pure alumina. (ii) NaCN in the extraction of silver from a silver ore. (iii) Coke in the extraction of iron from its oxides. Comments of Examiners Suggestions for teachers (i) Some candidates wrote that cryolite is used in the extraction of Aluminium from alumina to reduce the boiling point of mixture instead of to reduce the melting point. (ii) Many candidates wrote NaCN is used in the extraction of silver from silver ore as a depressant instead of as a leaching agent. A few candidates, instead of writing that silver ore forms soluble complex with NaCN, wrote that it forms insoluble complex. (iii)Several candidates wrote that coke was used to extract iron from its oxide ore instead of writing reducing agent. Some candidates wrote that coke is used as a fuel. - Explain in detail the role of cryolite in the extraction of aluminium from pure alumina. - Clearly explain the extraction of silver with balanced chemical equation. - Discuss the use and importance of each reagent during extraction. - Advise students to learn the metallurgy of metals in detail. MARKING SCHEME Question 11 (i) In order to decrease the melting point of mixture and to increase the conductivity of alumina (Al2O3), cryolite is added in the extraction of aluminium. (ii) When silver ore is treated with NaCN solution, silver ore gets dissolved and forms a soluble complex whereas impurities remain insoluble. (iii) Coke reduces CO2 to CO which helps in the reduction of iron oxide to iron. Or CO2 (g) + C (s) 2CO (g) Fe2O3 + 3CO 2Fe + 3CO2 [3] Question 12 (i) (ii) Write the IUPAC names of the following: (1) K3[Fe(C2O4)3] (2) [Co(NH3)5Cl]SO4 [Fe(CN)6]4 is a coordination complex ion. (1) Calculate the oxidation number of iron in the complex. 23 (2) Is the complex ion diamagnetic or paramagnetic? (3) What is the hybridisation state of the central metal atom? (4) Write the IUPAC name of the complex ion. Comments of Examiners (i) (1) Several candidates wrote trisoxalato as the IUPAC name of K3[Fe(C2O4)3] instead of writing trioxalato and wrote iron in place of ferrate. Many candidates calculated oxidation state of the central metal atom incorrecltly. (2) Majority of the candidates wrote pentammine as the IUPAC name of [Co(NH3)5Cl]SO4. Some candidates wrote the oxidation state of cobalt as (II) or (IV) instead of (III). (ii) (1) Most of the candidates wrote the correct oxidation number i.e. +2. (2) A few candidates gave the answer as paramagnetic. (3) A few candidates, instead of writing d2sp3 hybridisation, wrote sp3d2. (4) Majority of the candidates did not write the word ion in the IUPAC name hexacyanoferrate (II) ion. A few candidates wrote iron instead of ferrate. Suggestions for teachers - Teach in detail, the rules for nomenclature of coordination compounds and give adequate practice to the students in the application of these rules. - Lay stress on the importance of correct alphabetical order ligands, use of bis- , tris- and how to calculate the oxidation number of the central metal atom. - Discuss the method of determining the type of hybridisation, magnetic behaviour and oxidation state by using valance bond theory. - Train students to write ion at the end of the IUPAC nomenclature for complex ions. MARKING SCHEME Question 12 (i) (ii) (1) (2) (1) (2) (3) (4) Potassiumtrioxalatoferrate (III) Pentaamminechloridocobalt (III) sulphate +2 Diamagnetic d2 sp3 Hexacyanoferrate (II) ion [3] Question 13 (a) Explain why: (i) Transition elements form alloys. (ii) Zn2+ salts are white whereas Cu2+ salts are coloured. (iii) Transition metals and their compounds act as catalyst. 24 OR (b) Complete and balance the following chemical equations. (i) KMnO4 + H2SO4 + H2C2O4 ______ + ______ + ______ + ______ (ii) K2Cr2O7 + H2SO4 + KI ______ + ______ + ______ + ______ (iii) K2Cr2O7 + H2SO4 + FeSO4 ______ + ______ + ______ + ______ Comments of Examiners (a) (i) Most of the candidates, instead of writing similar size of atoms, wrote vacant d-orbital or small size. (ii) Many candidates did not explain the concept of paired, unpaired electrons and d-d transition but wrote only the electronic configuration of Zn2+ and Cu2+ ions. (iii)Most candidates, instead of writing vacant d-orbital or presence of active centre, wrote unpaired electron or small size. (b) Majority of the candidates were unable to write the correct chemical equations. Common errors made by the candidates were: (i) The equations were not balanced. (ii) The by-products were not written in the equations. (iii) The formulae of products were incorrect Cr(SO4)3 instead of Cr2(SO4)3 or Fe(SO4)3 instead of Fe2(SO4)3 . Suggestions for teachers - Explain the importance of d-block elements in detail, with the help of suitable diagrams and examples. - Advise students, to write the key words such as similar size / vacant d-orbital / unpaired electron in d-orbital / d-d transition / variable valency etc. while writing the answers of reasoning type of questions. - Give adequate practice to students in writing complete and balanced chemical equations. - Elucidate oxidising and reducing properties of K2Cr2O7 and KMnO4 in class. MARKING SCHEME Question 13 (a) (b) (i) The atomic radii of transition elements in any series are not much different and hence can replace each other easily in lattice. (ii) Zn2+ does not have any unpaired electron while Cu2+ has unpaired electron and can undergo d-d transition emitting colour. (iii) Transition elements have variable oxidation state giving unstable intermediates, thus act as catalyst. (i) OR 2KMnO4 + 3H2SO4 + 5H2C2O4 K2SO4+ 2MnSO4 + 8H2O + 10CO2 (ii) K2Cr2O7 +7H2SO4 + 6KI 4K2SO4 + Cr2(SO4)3 + 7H2O+ 3I2 (iii) K2Cr2O7 + 7H2SO4 + 6FeSO4 3Fe2 (SO4)3 + K2SO4 + Cr2(SO4)3 + 7H2O 25 [3] Question 14 Give balanced equations for the following: (i) Aniline is treated with bromine water. (ii) Ethylamine is heated with chloroform and alcoholic solution of potassium hydroxide. (iii) Benzene diazonium chloride is treated with ice cold solution of aniline in acidic medium. Comments of Examiners (i) Most of the candidates wrote the incorrect product such as ortho or paradibromo aniline instead of 2.4.6 tribromo aniline. Many candidates wrote an unbalanced equation. Some candidates did not write the by-product i.e. HBr. (ii) A number of candidates wrote ethyl cyanide instead of ethyl isocyanide. A few candidates wrote an unbalanced equation and did not write the by-product i.e. H2O. (iii) Many candidates were unable to write the correct formula of the main product. Several candidates showed the double bond between N=N- as single bond. Some candidates did not show HCl as a by-product. Suggestions for teachers - Train students to write balanced equations for all types of chemical with appropriate reactions conditions/reagents. - Lay emphasis on named organic reactions, ensuring that the students write the by-product in all organic reactions. MARKING SCHEME Question 14 NH2 (i) Br + 3 Br2 (aq) NH2 Br + 3 HBr Br (ii) (iii) C2 H5 NH2 + CHCl3 + 3KOH(alc) C2 H5 N C + 3 KCl + 3 H2 O N+ N Cl +H + H NH2 ( Ice Cold ) N=N NH2+HCl p-amino azobenzene 26 [3] Question 15 Define the following terms with suitable examples: (i) Peptisation (ii) Electrophoresis (iii) Dialysis Comments of Examiners (i) Most of the candidates did not write the correct Suggestions for teachers definition of peptisation. They either wrote the Familiarise the students with terms such definition for coagulation or peptide linkage. Many as peptisation, electrophoresis, dialysis, candidates did not write the correct example. coagulation, etc. with the examples (ii) Majority of the candidates explained and defined related to daily life. electrophoresis as electrolysis. Several candidates, instead of mentioning movement of colloidal particles, mentioned charge separation. Many candidates did not give the correct examples. (iii) Several candidates did not mention the removal of dissolved impurities (crystalloids) from colloids through semi-permeable membrane. Some candidates wrote incorrect examples. MARKING SCHEME Question 15 (i) Peptisation: The process of conversion of a fresh precipitate into colloidal solution by shaking it with dispersion medium in the presence of electrolyte is called peptisation. Example: Red coloured solution of Fe (OH)3 is obtained when freshly prepared precipitate is treated with small amount of FeCl3 solution. (ii) Electrophoresis: The movement of colloidal particles under an applied electric potential is called electrophoresis. Positively charged particles move towards cathode, while negatively charged particles move towards the anode. Example: purification of sewage water, proteins, etc. (iii) Dialysis: It is the process of removing a dissolved substance from a colloidal solution by means of diffusion through a suitable membrane. The molecules or ions diffuse through membrane and pure colloidal solution is left behind. Example: removal of sugar from blood in diabetic patients. 27 [5] Question 16 (a) (i) Calculate the mass of silver deposited at cathode when a current of 2 amperes is passed through a solution of AgNO3 for 15 minutes. (at. wt. of Ag = 108, 1 F = 96,500 C) (ii) Calculate the emf and G for the cell reaction at 298 K Mg(s) Mg 2+ (0 1M) Cu 2+ (0 01M) Cu(s) Given E cell = 2 71V 1F = 96,500 C OR (b) (i) (ii) Define the following terms: (1) Specific conductance (2) Kohlrausch s Law The resistance of a conductivity cell containing 0 001 M KCl solution at 298 K is 1500 ohm. What is the cell constant and molar conductivity of 0 001 M KCl solution, if the conductivity of this solution is 0 146 10-3 ohm-1 cm-1 at 298 K? 28 Comments of Examiners (a) (i) Majority of the candidates made an error in the Suggestions for teachers calculation of equivalent weight of silver, writing 54 instead of 108. Many candidates did - Lay emphasis on the practice of not express the answer with the unit. Some numerical problems based on candidates took the time taken in minutes Faraday s laws of electrolysis, Nernst instead of seconds. A few candidates did not use equation. cell constant, molar the correct formula. conductivity and specific (ii) Many candidates wrote an incorrect formula for conductivity. Nernst equation. Instead of calculating G, - Advise students to read the numerical some candidates calculated Go which was not problems carefully and train them to asked. A few candidates did not express the express the answer with proper unit. answer with the negative sign. - Explain terms like specific (b)(i) (1) Several candidates wrote an incorrect conductance, molar conductance, definition of specific conductance and also wrote an incorrect formula. equivalent conductance and (2) Instead of defining the term, some Kohlrausch s law, etc. with key candidates wrote only the formula. A few words. candidates did not mention infinite dilution. (ii) Most of the candidates were able to calculate the correct values of cell constant and molar conductivity but were unable to express the answer with the correct unit. MARKING SCHEME Question 16 (a) (i) Given: at. wt. of Ag = 108, Time = 15 minutes = 15 60 = 900 s. w = z it or w = 96500 or 96500 108 = 1 96500 2 900 = 2 0145 g (ii) 0 Ecell = 0 0591 Ecell = 2 71 0 0591 2 2+ log [ 2+ ] [0 1] log [0 01] = 2 71 0 02955 = = 2 68045 V = 2 96500 2 68045 J = 517326 85 J or 517 326 kJ 29 (b) (i) (ii) (1) Specific conductance: It is conductance of a conductor whose length is 1 cm and area of cross section is equal to 1 cm2. It is equal to the reciprocal of specific resistance of the conductor. (2) Kohlrausch s Law: The molar conductivity at infinite dilution of an electrolyte is equal to the sum of the molar conductances of its cations and anions, with each conductance term multiplied by the number of respective ions present in the formula unit of the electrolyte. Given: Conductivity = 0 146 10-3 ohm-1 cm-1 R = 1500 ohm Cell constant= = = 0 146 10-3 1500 Cell constant = 0 219 cm-1 ^m = -1 = 1000 2 0 001 = 146 ohm cm mol -1 = 0 146 10 3 1000 0 001 [5] Question 17 (a) (i) (ii) Explain why: (1) Fluorine has lower electron affinity than chlorine. (2) Red phosphorus is less reactive than white phosphorous. (3) Ozone acts as a powerful oxidising agent. Draw the structures of the following: (1) XeF6 (2) IF7 OR (b) (i) (ii) Explain why: (1) Interhalogen compounds are more reactive than the related elemental halogens. (2) Sulphur exhibits tendency for catenation but oxygen does not. (3) On being slowly passed through water, PH3 forms bubbles but NH3 dissolves. Complete and balance the following reactions: (1) P4 + H2SO4 ______ + ______ + ______ (2) Ag + HNO3 ______ + ______ + ______ (dilute) 30 Comments of Examiners (a) (i) (1) Most candidates could not give proper reasoning as to why fluorine has lower electron affinity than chlorine. (2) Many candidates did not mention polymeric structure and tetrahedral link for red phosphorous and angular strain for white phosphorous. (3) Majority of the candidates explained the oxidizing property of ozone without using the keyword nascent oxygen. (ii)(1) Several candidates did not show the lone pair of electrons on Xe atom in the structure of XeF6. (2)Many candidates did not show the pentagonal bipyramidal structure of IF7. A few candidates incorrectly showed extra lone pair of electrons on iodine. Suggestions for teachers - Teach the p-block elements with general characteristics and discuss more of reasoning questions in class. - Highlight the geometry of hybridisation and lone pair presence in the structure. - Explain, on the basis of VESPR theory, how the shape and geometry are affected by the lone pairs. - Explain the comparison of bond energy of inter halogen compounds and halogens. - Teach the comparative properties of p-block elements in detail. - Explain, on the basis of hydrogen bonding, the solubility of NH3 and PH3 in water. - Give more practice in writing complete and balance chemical equations. (b) (i) (1) The point that X-X bond is weaker than XX bond was not mentioned by many candidates. Instead they wrote that inter halogen compounds form hydrogen bond. (2) Most of the candidates wrote incorrect reasons like, down the group catenation property increases, instead of writing that S-S bond is stronger than O-O bond. (3) Majority of the candidates did not mention that intermolecular hydrogen bonding in NH3 is responsible for higher solubility of NH3 in water. (ii) (1) A few candidates were unable to write the correct product(s) and were not able to give the balanced equations. Instead of H3PO4 some candidates wrote H3PO3. (2) Instead of NO, some candidates wrote one of the products as NO2. MARKING SCHEME Question 17 (a) (i) (1) F has lower electron affinity than Cl due to its small size of atom, hence electron density on F atom is very high. (2) Red phosphorus has a polymeric structure and consist of P4 tetrahedra linked together, hence it is less reactive than white phosphorous. (3) Ozone is a powerful oxidising agent because it can easily decompose to give an atom of nascent oxygen which is more reactive than O2; O3 O2 + [O] 31 (ii) (1) F F F Lone pair must be shown Xe F F F (2) F F F F Pentagonal bipyramidal I F F F OR (b) (i) (1) (2) (3) (ii) (1) (2) Interhalogen compounds X X are more reactive than halogens X X because X X bonds are weaker than X X bonds. Bond energy of S-S bond is greater than O-O bond. Due to small size of oxygen atom, it has greater lp-bp repulsion hence O-O bond is weaker than S-S bond. Therefore, sulphur shows the property of catenation. PH3 does not form intermolecular H-bond due to large atomic size of Phosphorous while NH3 forms intermolecular H-bond with water hence it becomes soluble. P4 +10H2SO4 4H3PO4 + 10SO2 + 4H2O 3Ag + 4HNO3 3AgNO3 + NO + 2H2O (dil) [5] Question 18 (a) (i) (ii) Give balanced chemical equations for the following reactions: (1) Acetaldehyde reacts with hydrogen cyanide. (2) Acetone reacts with phenyl hydrazine. (3) Acetic acid is treated with ethanol and a drop of conc. H2SO4. Give one chemical test each to distinguish between the following pairs of compounds: (1) Acetone and benzaldehyde. (2) Phenol and benzoic acid. OR 32 (b) (i) (ii) Write chemical equations to illustrate the following name reactions: (1) Aldol condensation. (2) Cannizzaro s reaction. (3) Benzoin condensation. Identify the compounds A and B in the given reactions: (1) CH Cl [O ] 3 A K Cr O + H SO B AlCl ( anhy ) Benzene (2) 2 3 2 7 2 4 PCl [O ] 5 CH 3COCH 3 HNO (conc.) A B 3 Comments of Examiners (a) (i) (1) The chemical formula for the product was written incorrectly by some candidates. (2) Many candidates did not write the by-product. Some candidates, instead of writing the reaction of acetone with phenyl hydrazine, wrote the reaction of acetone with hydrazine. (3) Most candidates wrote the correct product, but a few candidates did not write H2O as the by-product. (ii)(1) Several candidates wrote incorrect observations for iodoform test of acetone. Some candidates also mentioned Fehling s test which is not given by both acetone and benzaldehyde. (2) Most of the candidates wrote test with neutral FeCl3. A few candidates gave incorrect observations. Suggestions for teachers - Give adequate practice in writing organic reactions. - Lay emphasis on writing correct balanced equations. - Demonstrate and ask students to perform these chemical tests for better understanding. - Insist that the students use proper reagents and write correct observations to distinguish between the organic compounds. - Explain the importance of reagents and catalysts in named organic reactions. sufficient practice in - Give identification of organic compounds as practicing such conversions will make students perfect and will help in better understanding. (b) (i) (1) For Aldol condensation , many candidates used HCHO or C6H5CHO instead of CH3CHO which contains hydrogen atom. Some candidates, instead of writing dilute NaOH, wrote only NaOH. (2) For Cannizzaro s reaction, several candidates used acetaldehyde instead of formaldehyde and benzaldehyde. A few candidates did not use concentrated NaOH. (3) Many candidates, for Benzoin Condensation , did not write the reagent alcoholic KCN not realizing that without this reagent the reaction would not occur. Some candidates wrote the structure of Benzoin incorrectly. 33 (ii)(1) Compound A i.e. toluene was identified correctly by most of the candidates. Some candidates identified Compound B as benzaldehyde instead of benzoic acid. (2) Most candidates identified the compound A i.e. acetic acid correctly. Some candidates wrote acetaldehyde also. Compound B i.e. acetyl chloride was incorrectly identified by many candidates. MARKING SCHEME Question 18 (a) (i) (1) H CH3 C = O + H C N CH3 OH C H (2) C N CH3 CH3 CH C = N.NH.C6H5 + H2O CH3 C = O + H2N.NH.C6H5 3 (3) conc. CH3COOH + C2H5OH CH3COOC2H5 + H2O H2SO4 (ii) (1) Acetone + NaHSO3 white crystalline precipitate or Acetone + I2 + NaOH yellow crystalline precipitate Benzaldehyde will not respond to the above tests. (Or any other relevant test) (2) Phenol + Br2 water white precipitate or Phenol + neutral FeCl3 violet colouration while benzoic acid will not respond to the above test. (Or any other relevant test) OR (b) (i) (1) Aldol condensation: 2 3 H CH3 C CH2 CHO OH aldol 34 (2) Cannizzaro s reaction: 2HCHO + NaOH CH3OH + HCOONa Conc. (3) Benzoin condensation: 2C6H5CHO ( ) (ii) (1) (2) H O C6H5 C C C6 H5 OH benzoin A Toluene or C6H5CH3 B Benzoic acid or C6H5COOH A Acetic acid or CH3COOH B Ethanoyl chloride or CH3 COCl Note: For questions having more than one correct answer/solution, alternate correct answers/solutions, apart from those given in the marking scheme, have also been accepted. 35 GENERAL COMMENTS Topics found difficult by candidates Suggestions for candidates Rate law equation, order of reaction and numerical problems based on half-life period. Numerical problems based on depression in freezing point, calculation of degree of association, determination of molecular mass using colligative properties. Faraday s laws of electrolysis, calculation of e.m.f. using Nernst equation and free energy change ( G) of the cell. Role of chemicals/substances in the extraction of aluminium, silver and iron. Nomenclature of coordination compounds, hybridisation and magnetic behaviour. Surface chemistry, definition of certain terms related to colloidal state. Name of organic reactions, conversion of organic compounds, chemical tests to distinguish the organic compounds. Name and structure of monomers and the type of polymerisation. Types of vitamins, fat soluble and water soluble. Diseases caused by their deficiency. Reasoning questions of p and d blocks. Be regular and systematic in your studies. Utilise the additional reading time given to read the question paper. Read the question carefully and comprehend what is required before attempting the question. Avoid selective study. Give equal importance to all the topics as questions are asked from every unit/chapter. Learn to write balanced chemical equations with the conditions/reagents/catalysts used in that reaction (inorganic and organic chemistry). Solve numerical problems following the proper steps i.e. formula, substitution (take all the physical quantities in same system of unit), calculation and answer with proper/required unit. Write neatly and legibly. Write the correct question numbers as mentioned in the question paper. Learn to write the key words in the answer. Do not waste time in attempting additional questions given as internal choices. Keep enough time for rechecking and avoid careless mistakes. Practice IUPAC nomenclature and isomerism of the coordination compounds. 36 Concepts in which candidates got confused Relation between elevation of boiling point and number of moles of solute in solution. Increasing order of acidic strength of the oxoacid and inductive effect. The ionic size of La3+ and Lu3+. Diamagnetic and paramagnetic nature of complex ions. Peptisation, electrophoresis and dialysis in colloidal state. Difference between G and Go. Specific conductance and Kohlrausch s Law. Reactions of inorganic compounds and their balanced equations. 37

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