Quantitative Aptitude
forCAT& Other MBA Entrance Exams
(ii)
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Quantitative Aptitude forms a very important part of preparation of MBA aspirants. Not just the Quant section but it forms the backbone of the Data Interpretation, Data Sufficiency and Reasoning. Disha’s Quantitative Aptitude for CAT/ XAT/ IIFT/ CMAT/ MAT is a book focused on mastering techniques to crack these examinations. The book starts from a foundation level and moves to an expert level.
Structure of the book: The book comprises of 5 Units (Numbers, Arithmetic, Algebra, Geometry and Counting Principles) which have been further divided into 23 chapters followed by 5 Mock Tests. Each chapter consists of
• Theory with Illustrations
• Foundation Level Exercise
• Standard Level Exercise
• Expert Level Exercise
• Solutions to the 3 levels of exercises
• Test Yourself
• Solutions to Test Yourself
Salient Features of the Book:
• Each chapter includesdetailed reviewof all the concepts involvedwith exhaustivenumberofwell discussedIllustrations.
• Thetheoryisfollowedby3levelsofexercises–FoundationLevel,StandardLevelandExpertLevel.Thedetailedsolution to each and every question has been provided immediately at the end of the 3 exercises.
• Foundation Level : Here the focus is to expose the students to solve problems based on the concepts they have learned in theory part. The student develops a good foundation and is ready for the Standard level.
• Standard Level : The Standard level is a collection of excellent quality problems which will test a student on the application of the concepts learned in various real-life situations. The problems provide a good platform to develop a very good problem solving aptitude so as to take up the expert level confidently.
• Expert Level : This is the toughest part of the book and involves the trickiest questions on the concepts involved. Here most of the problems will pose good challenge to the students.
• Thebookcontains23Chapter-wiseTests–TestYourself-onthebasisoflatestCATpatternaftertheexercisesin each chapter. The students must attempt these tests in specified time limits and conditions. A new chapter introducing Trigonometry has been added in the book.
• Attheendofthebook5MockTestsareprovidedbasedonthepatternoflatestCATexams.Thesolutionstothetest are provided at the end of the tests.
• The book contains questions of past exams of CAT/ XAT/ IIFT/ SNAP/NMAT/ ATMA/ FMS in the variousexercises and Illustrations.
• Italsoempoweredwithlast5yearsCATOnlineSolvedPaperattheendofthebook.
Although we have taken utmost care while preparing the book but errors might have crept in. We would like to request our readers to highlight these errors.
Authors
Preface
(iv)
Unit-I : Numbers
1. Fundamentals 1-28
● Introduction ● Shortcuts for Addition and Subtraction ● Shortcuts for Multiplication ● Rounding off and Its Uses ● ‘BODMAS’ Rule ● Brackets ● Factorial ● Roman Numbers ● Important Conversion ● Absolute Value or Modulus of a Number ● Properties of a Modulus ● Powers or Exponents ● Algebraic Identities ● Squares ● Properties of Squares ● Square Roots ● Cubes ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
2. Number System 29-66
● Introduction ● Tabular Classification of Numbers ● Concept of Number Line (or Number Line) ● Conversion of Rational Number of the Form Non-terminating
Recurring Decimal into the Rational Number of the form p/q ● Division ● Tests of Divisibility ● Prime Numbers ● Complex Numbers, Real Numbers and Imaginary Numbers ● General or Expanded Form of 2 and 3 Digits Numbers ● Sum of Numbers Formed with given Different Digits ● Factorisation ● Number of Factors of a Composite Number ● Number of ways of Expressing a Composite
Number as a Product of Two Factors ● Sum of Factors (or Divisors) of a composite Number ● Sum of Unit Digits ● The Last Digit From Left (i.e., unit digit) of
Any Power of a Number ● Concept of Remainders ● To Find the Last Digits of the
Expression like a1 × a2 × a3 × ... × an
● Last Two Digits of a Number with Large Power ● Number of Zeroes in an Expression like
a × b × c × ..., where a, b, c,... are Natural Numbers ● Powers of a Number Contained in a Factorial ● Base System ● Successive Division ● Factors and Multiples ● Highest Common Factor (HCF) or
Greatest Common Divisor (GCD) ● Least Common Multiple (LCM) ● Greatest Integral Value ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
Unit-II : Arithmetic
3. Averages 67-86
● Average ● Position of the Average on the Number Line ● Weighted Average ● Properties of Average (Arithmetic Mean) ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
4. Alligations 87-102
● Alligation ● Solving the Problems of Alligations Using Alligation Formula ● Graphical Representation of Alligation-Cross Method ● The Straight Line Approach to Solve the Problems Related to
Alligations ● Recognition of Different Situations Where Alligation can be
Used ● A Typical Problem ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
5. Percentages 103-130
● Introduction ● Basic Definition of Percentage ● Percentage Increase, Percentage Decrease and Percentage
Change ● Percentage Point Change and Percentage Change
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● Calculation of Percentage Value Through Addition ● Effect of Percentage Change in the Numerator on the Value of
a Ratio ● Percentage Change Graphic ● Application of Percentage Change Graphic (PCG) ● Calculation of Multiplication by Numbers Like 2.14, 1.04, 0.35,
0.94 and so on Using Percentage ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
6. Profit, Loss and Discount 131-158
● Introduction ● Total Cost Price (CP) ● Selling Price (SP) ● Profit (or Gain) and Loss ● Use of PCG (Percentage Change Graphic) in Profit and Loss ● Marked Price, List Price, Discount and Successive Discounts ● Contribution Margin (CM) ● Break-Even Point and Break-Even Sales ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
7. Interest 159-180
● Introduction ● Interest ● Simple Interest (S.I.) ● Compound Interest (C.I.) ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
8. Ratio, Proportion and Variation 181-206
● Introduction ● Ratio ● Decimal and Percentage Value of a Ratio ● Properties of Ratios ● Uses of Ratios ● Comparison of Ratios ● Calculation of Percentage Change in Ratio Using PCG
(Percentage Change Graphic) ● Proportion ● Properties of Proportion ● Variations ● Types of Variations ● Compound Variations
● Practice Exercises : u Foundation Level u Standard Level u Expert Level
● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
9. Time and Work 207-238
● Introduction ● Concept of Efficiency ● Concept of Negative Work ● Concept of Man-days ● Work Done ● Work Done Equation ● Work in Terms of Volume (special case as building a wall) ● Extension of the Concept of Time and Work ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
10. Time, Speed and Distance 239-280
● Introduction ● Motion or Movement ● Conversion of kmph (kilometer per hour) to m/s
(metre per second) and vice-versa ● Direct and Inverse Proportionality Between any Two of the Speed (S),
Time (T) and Distance (D) When the Third One is Constant ● Average Speed ● Relative Speed ● To and Fro Motion in a Straight Line Between Two Points A
and B ● Uniform Acceleration and Uniform Deceleration ● Application of Alligation in the Problems Related to Time, Speed
and Distance ● Concept Related to Motion of Trains ● Boats and Streams ● Basic Terminology Related to Races ● Circular Motion ● Clocks ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
Unit-III : Algebra
11. Progressions 281-306
● Introduction ● Arithmetic Progressions (A.P.) ● nth Term of an A.P. ● Sum of First n Terms of an A.P.
(vi)
● Special Cases of A.P.s in which Sum upto Different Terms are the Same
● Arithmetic Mean of n Numbers ● Geometric Progression (G.P.) ● Considering the Terms in a G.P. ● Geometric Mean of n Numbers ● Harmonic Progression (H.P.) ● Relations between Arithmetic Mean (A.M.), Geometric Mean
(G.M.) and Harmonic Mean (H.M.) ● Useful Results ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
12. Linear Equations 307-326 ● Linear Equations ● Steps to be Followed to Solve a Word
Problem Using Linear Equation(s) ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
13. Functions 327-346 ● Introduction ● Function ● Rules for Finding the Domain of a Function ● Methods of Representation of Functions ● Some Special Functions ● Shifting of Graphs ● Combination of Shifting of a Graph ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
14. Quadratic & Cubic Equations 347-368 ● Introduction ● Quadratic Polynomials ● Quadratic Equations ● Graph of a Quadratic Expression ● Geometrical Meaning of Roots or Solutions of a
Quadratic Equation ● Sign of a Quadratic Expression ● Sum and Product of Roots ● Formation of an Equation with Given Roots ● Greatest and Least Value of a Quadratic Expression ● Cubic Equations ● Bi-quadratic equation ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
15. Inequalities 369-386
● Introduction ● Inequality ● Types of Inequalities ● Some Properties of Inequality ● Important Results ● Solution of an Inequality ● Equivalent Inequalities ● Notation and Ranges ● Solutions of Linear Inequalities in one Unknown ● Solutions of Quadratic Inequalities ● Solution of System of Inequalities in one Variable ● Inequalities Containing a Modulus ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
16. Logarithms 387-408
● Introduction ● Definition ● Laws of Logarithm ● Some Important Properties ● Characteristics and Mantissa ● Very Useful Results ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
17. Set Theory 409-430
● Introduction ● Sets ● Representations of Sets ● Standard Symbols of Some Special Sets ● Types of Sets ● Subsets ● Intervals as Subsets of a Set of Real Numbers (R) ● Power Set of a Set ● Universal Set ● Venn Diagrams ● Operation on Sets ● Disjoint Sets ● Cardinal Number ● Situation Based Venn Diagrams ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
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Unit-IV : Geometry
18. Geometry 431-492
● Introduction ● Points, Lines, Line Segment, Ray and Plane ● Lines and Angles ● Polygons ● Triangles ● Basic Properties and Some Important Theorems of Triangles ● Important Terms Related to a Triangle ● Congruency of Two Triangles ● Similarity of Two Triangles ● Quadrilaterals ● Circles ● Basic Pythagorean Triplets ● Determination of Nature of Triangle ● Important Points ● Locus ● Sine and Cosine Rule ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
19. Mensuration 493-548
● Introduction ● Basic Conversion of Units ● Plane Figures ● Area of a Triangle ● Area of a Quadrilateral ● Area of a Regular Hexagon ● Area of Irregular Plane Figures ● Paths ● Area Related to a Circle ● Surface area and Volume of Solids ● Euler’s Rule ● Circle Packing in a Square ● Circles Packing in a Circle ● Some Other Important Concepts ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
20. Coordinate Geometry 549-574
● Introduction ● Rectangular Coordinate Axes ● Sign Conventions in the xy-Plane ● Quadrants of xy-Plane and Sign of x and y-Coordinate of a
Point in Different Quadrants ● Plotting a Point Whose Coordinates are Known ● Distance Formula ● Applications of Distance Formula
● Section Formula ● Coordinates of Some Particular Points ● Area of Triangle and Quadrilateral ● Transformation of Axes ● Image of a Point ● Equation of Straight Line Parallel to An Axis ● Inclination of a Straight Line ● Slope (or Gradient) of a Straight Line ● Equation of Straight Lines ● Different Forms of the Equation of a Straight Line ● Point of Intersection of Two Lines ● Position of a Point Relative to a Line ● Angle Between Two Straight Lines ● Equation of Parallel and Perpendicular Lines ● Distance of a Line from a Point ● Distance Between Two Parallel Lines ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
Unit-V : Counting Principles
21. Permutations and Combinations 575-608
● Introduction ● Fundamental Principle of Counting ● Factorials ● Meaning of Permutation and Combination ● Counting Formula for Linear Permutations ● Number of Linear Permutations Under Certain Conditions ● Circular Permutations ● Counting Formula for Combination ● Division and Distribution of Objects ● Dearrangement ● Important Results about Points ● Finding the Rank of a Word ● Practice Exercises :
u Foundation Level u Standard Level u Expert Level ● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
22. Probability 609-652
● Introduction ● Concept of probability ● Basic Terms ● Mathematical Definition of Probability ● Odds Against and Odds in Favour of an Event ● Addition Theorem ● Independent Events ● Conditional Probability ● Geometrical Applications ● Probability Regarding n Letters and Their Envelopes ● Expectation
(viii)
● Practice Exercises : u Foundation Level u Standard Level u Expert Level`
● Test Yourself ● Hints & Solutions ● Explanation of Test Yourself
Mock Tests
Mock Test - 1 653-654
Mock Test - 2 655-656
Mock Test - 3 657
Hints & Solutions (Mock Test - 1 to 3) 658-666
Mock Test - 4 667-669
Mock Test - 5 670-672
Hints & Solutions (Mock Test - 4 & 5) 673-680
23. Introduction to Trigonometry 681-688
● Angle ● Trigonometric Ratios ● Value of Trigonometric Ratios for some specific Angles ● Basic Formulae or Trigonmetric Identity ● Trigonometric Ratios for Complementary Angles ● Angle of Elevation and Angle of Depression ● To find the Height and the Distance of an inaccessible Tower
standing on a horizontal plane ● Practice Exercises :
u Foundation Level ● Hints & Solutions
Topic-Wise CAT (2012-16) Solved Paper S-1-40
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Chapter 1 Fundamentals
Chapter 2 Number System
UN
IT-I
Num
bers
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1 FUNDAMENTALS
INTRODUCTIONIn the CAT and the likes of competitions, 25% to 35% questions are based on numeracy. So, to save the time for other questions in competitions, it is essential to command over shortcuts of addition, subtraction and multiplications given in this chapter.
SHORTCUTS FOR ADDITION AND SUBTRACTIONAddition is the mother of all calculations, which gives you an extra edge that makes your calculations faster. Subtraction is the extension of addition.I. Tofindthesumoflargenumberslike
64083 + 43102 + 94320 + 8915 + 7042 First add the thousands like
64 + 43 (= 107) + 94 (= 201) + 8 (= 209) + 7 = 216 At this stage you know the answer would be 216000 +
(amaximumof5000),astherearefivenumberswhoselast 3 digits numbers are not added. If the range from 216000 to 221000issufficienttochoosethecorrectoption,thennoneedto add further otherwise add the hundredth digits of given numbers 1 + 3 + 9 = 13.
At this stage you know the answer would be 217300 + (a maximum of 500)
Iftherangefrom217300to217800issufficienttochoosethe correct option, then no need to add further otherwise add the last two digits of numbers
83 + 2 + 20 + 15 + 42 = 162. Hence the correct sum will be 217300 + 162 = 217462. There are two advantages of process of addition (i) No
needtogetfinalsumasinthisprocessofaddition,youcouldchoose the correct option at earlier stage also. (ii) In the entire calculation, you have not gone above two digits additions.
II. Sometimes you have to add so many large numbers. In that case you can find the required sum using the following methods.
(A) Column Form
Write the given numbers one below the other with right align if the given numbers are whole numbers and with decimal point align if the given numbers are decimal numbers as we write in conventional method of addition.
l Introduction l Absolute Value or Modulus of a Number
l Shortcuts For Addition and Subtraction l Properties of a Modulus
l Shortcuts for Multiplication l Powers or Exponents
l Rounding off and Its Uses l Algebraic Identities
l ‘BODMAS’ Rule l Squares
l Brackets l Properties of Squares
l Factorial l Square Roots
l Roman Numbers l Cubes
l Important Conversion
2 l Quantitative Aptitude
65801258924708608907
89521308570473095695476844675
532689
← Right align
85406 487672028 324927 052
531486 2564 8
62089 204701438 909
.
.
.
.
.
.
.
← Decimal point align
(i) Addition of Whole NumbersTo add the whole numbers with right align, we start adding the digits in the right most column by going down but when the running total becomes 10 or higher than 10, then we reduce it by 10 and go ahead with reduced number. As we do so, we make a small dash ‘ ′’ at the right top corner of the digit that makes our total 10 or higher than 10 as given below for right most column.
5 + 8 = 13, which is more than 10, so we subtract 10 from 13 and mark a dash at the right top corner of the digit 8 and start adding again.
3 + 7 = 10, so we subtract 10 from it and mark a dash at the right top corner of the digit 7 and start adding again.
0 + 5 = 55 + 0 = 55 + 4 = 99 + 6 = 15, which is more than 10, so we subtract 10 to from
15 and mark a dash at the right top corner of the digit 6 and start adding again.
5 + 4 = 99 + 5 = 14, which is greater than 10, so we subtract from it
and mark a dash at the right top corner of the digit 5 and start adding again.
4 + 9 = 13, which is greater than 10, so we subtract from it and mark a dash at the right top corner of the digit 9.
Thedashesandthefinalfigure3willbewrittenunderthefirstcolumn from right as
5 8′ 7′ 5 0 4 6′
4 5′ 9′ 3Nowwecountthedashesmarkedinthefirstcolumnfromright.
Number of dashes in this column is 5. Now add the number of dashes 5 in the top digits 2 of the second column from right, then startaddingthiscolumnasweaddthefirstcolumnfromright.
In the same way, we add the other columns one by one from right. After adding the left most column, write the number of dashes in this column in the left of the total of this column as given below.
4 3 3 6 4 5
6� 5 8� 0 1 2 58 9� 2 �� �� 0 8�
6� � � �� 0 7�
8 9� 52� 1� 3 0
8� 5 7 0 47� � � �� �� 6�
9� 5 4 7� 6� 8� 44 6 7 5�
5� 3� 2 6� 8� 9�
7 0 1 8 4 7 32
Number of dashes inthe just right column
The advantage of this process is that the entire calculation is done only by adding one digit numbers.(ii) Addition of Decimal NumbersAddition of decimal numbers with decimal point align is the same as addition of whole numbers with right align.
In addition of decimal numbers, we put a decimal point in the sum total align with decimal in the given numbers as given below.
Illustration 1: Find the sum of the following numbers using column form.
564.39, 4237.8, 4.213, 56.8, 9423.41 and 46.98Solution:
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Fundamentals l 3
(B) Row FormTofindthesumofnumbers,itisnotnecessarytowritethemonebelowtheotherwithaligni.e.,columnform.Youcanfindthesumof numbers written in a row form using the same method discussed above for column form but there is a problem of alignment. To overcome this problem of alignment, we use the method of column form in slightly different way as discussed below.
This method of addition is very important. If you get command over it, you can stop wasting time in writting the numbers in column form.(i) Addition of Decimal NumbersSupposeyouhavetofindthesum
707.325 + 1923.82 + 58.009 + 564.943 + 65.6 (a) Put zeros to the right of the last digit after decimal to make
the number of digits after decimal equal in each number. For example, the above addition may be written as 707.325 + 1923.820 + 58.009 + 564.943 + 65.600 (b) Start adding the last digit from right of all the numbers. When
running total becomes 10 or higher than 10, then mark a tick with pencil any where near about your calculation and go ahead with reduced number.
707 325 1923 820 58 009 564 943 65 600. . . . .+ + + + = _ _ _ _ _ _ 7
5 plus 0 is 5; 5 plus 9 is 14, mark a tick in rough area and carry over 4; 4 plus 3 is 7; 7 plus 0 is 7, so write down 7. During addition we strike off all the digits which are added. It saves us from confusion and duplication.
(c) Add the number of ticks (marked near by calculation in rough) with the digits at 2nd places from right and erase that tick from rough.
707 325 1923 820 58 009 564 94 3 65 600. . . . .+ + + +
= _ _ _ _ _ _ 97 1 (number of tick) plus 2 is 3; 3 plus 2 is 5; 5 plus 0 is 5;
5 plus 4 is 9 and 9 plus 0 is 9; so write down 9 at the second place from right in the sum.
(d) 707 32 5 1923 820 58 00 9 564 94 3 65 600. . . . .+ + + +
= _ _ _ _ _ _ 697 3 plus 8 is 11; mark a tick in rough and carry over 1; 1 plus
0 is 1; 1 plus 9 is 10, mark another tick in rough and carry over zero; 0 plus 6 is 6, so put down 6 at the third place from right in the sum.
(e) Following the same way get the result:
7 0 7 3 2 5 19 2 3 8 2 0 5 8 0 0 9 5 6 4 9 4 3
6 5 6 0 0
. . . .
.
+ + +
+
= 3319.697Illustration 2: Find the sum of the following numbers using row form.
564.39, 4237.8, 4.213, 56.8, 9423.41 and 46.98Solution:56 4 3 9 0 4 2 3 7 8 0 0 4 2 1 3 5 6 8 0 0
9 4 2 3 4 1 0 4 6 9 8 0
. . . .
. .
+ + +
+ +
= 14333.593
(ii) Addition of Whole NumbersSupposeyouhavetofindthesum 707325 + 192382 + 58009 +564943 + 656.
Follow the steps mentioned in steps (b), (c), (d) and (e) of section (B) (i) (addition of decimal numbers in row form) above (without considering the decimal). Thus,70732 5 19238 2 5800 9 56494 3 65 6+ + + + = _ _ _ _ _ _ 5
70732 5 19238 2 5800 9 564943 65 6+ + + + = _ _ _ _ _ _ 15
707 3 25 19238 2 580 0 9 56494 3 65 6+ + + + = _ _ _ _ _ _ 315
7073 25 19238 2 58 0 0 9 56 4 94 3 65 6+ + + + = _ _ _ _ _ _ 3315
7 0 7 3 2 5 19 2 3 8 2 58 0 0 9 56 4 9 4 3 656+ + + + = _ _ _ _ _ _ 23315
70 7 3 2 5 192 3 8 2 58 0 0 9 56 4 9 4 3 656+ + + + = _ _ _ _ _ _ 1523315
Illustration 3: Find the sum of the following numbers using row form.
5834, 96182, 459, 2128, 87582 and 735Solution:
58 3 4 9 618 2 4 5 9 21 2 8 8 7 5 8 2 7 3 5+ + + + +
= 192920
III. Single Step Solution for Addition and Subtration in a Single Row: Digit-Sum MethodTounderstandthismethod,letusfindthevalueof
6531 – 468 + 8901 – 3210First of all, we check that the required value or number will +ve
or –ve by just looking at the given numbers with signs. In the case of +ve required number, the digits of the required number will be zero or +ve integer and in the case of –ve required number, the digits of the required number will be zero or –ve integer. Clearly the required number will be +ve. Hence, digits of required number will be zero or +ve.
4 l Quantitative Aptitude
Now tofind the unit digit of the required number, add and subtract the digits at units places of these given numbers according to the sign attached with these numbers as
1 – 8 + 1 – 0 = – 6Since required number will be +ve, therefore its unit digit can
not be –ve.To make (– 6) positive, we borrow from tens of largest given
positive number. You should remember that we can’t borrow from negative given number if required number is +ve. So, we borrow 1 from tens digit 0 of 8901. Now, we add 10 to (– 6), this can be shown as
(–1) (–1)6531 – 468 + 8 9 0 1 – 3210 = _ _ _ _ _ _ 4Now, we add and subtract the digits at tens places of given
numbers according to the sign attached with these numbers.3 – 6 + 9 – 1 = 5Since 5 is positive, hence 5 is the tens digit of the required number.This can be shown as (–1) (–1)6531 – 468 + 8 9 0 1 – 3210 = _ _ _ _ _ _ 54Now add the digit at hundredth places as5 – 4 + (9 – 1) – 2 = 7, which is positive.Hence hundredth digit of required number will be 7.Now add the digit at thousand places as 6 + 8 – 3 = 11Thus the last two digits of the required number are 11. Hence (–1) (–1)6531 – 468 + 8 9 0 1 – 3210 = _ _ _ _ _ _ 11754The same above method is used for decimal numbers also after
making the equal number of digits after decimal in all the given numbers by putting zero(s) at the end of the number after decimals.
This method requires some practice. But after some practice, youwillfinditisfastermethod.Illustration 4: 6598 – 2401 + 2281 – 516 = ?Solution: (–1) (+1)
6 5 9 8 – 2401 + 2281 – 516 = 5962After adding and subtracting the digits at tens places
according to the sign attached with the respective numbers, we get 16, which has two digits. So, 6 is written at tenth place in the required number and 1 is added to 5 (hundredth digit) of 6598.Illustration 5: 5603 – 2281 + 210 – 1472 = ?Solution: (–2)
5 6 0 3 – 2281 + 210 – 1472 = 2060After adding and subtracting the digits at tens places according
to the sign attached with the respective numbers, we get – 14. Since 14 is more than 10 but not more than 20. Therefore to make – 14 as a single positive digit we have to borrow 2 from hundredth digit i.e., 6 of 5603.
Now – 14 + 20 = 6, therefore tens digit of the required number is 6.Illustration 6: 3584 – 1502 + 2191 – 213 = ?Solution: (+1)
3 5 8 4 – 1502 + 2191 – 213 = 4060
After adding and subtracting the digits at tens places according to the sign attached with the respective numbers, we get 16. So we take 6 as tenth digit of the required number and add 1 to the hundreth digit i.e., 5 of 3584.Illustration 7: 125 – 2827 + 5163 – 2131 = ? Solution: (–1)
125 – 2827 + 5163 – 2131 = 330Illustration 8: 2513 – 6718 + 1231 – 3414 = ?Solution: (–1)
2513 – 6 7 1 8 + 1231 – 3414 = – 6388By observing the given numbers with signs, it is clear that the
required number or value will be –ve. Hence digits of the required number will be zero or negative integer.
Now 3 – 8 + 1 – 4 = – 8, so unit digit of required number is 8 (without the sign).
1 – 1 + 3 – 1 = 2, which is +ve.To make 2 negative, borrow 1 from hundredth digit of the larg-
est given –ve number i.e. borrow 1 from 7 of 6718.Now subtract 10 from 2, which gives – 8. So 8 is the tens digit
ofrequirednumber.Similarly,wefindthehundredthandthou-sand digit of the required number as 3 and 6 respectively. Since required number will be –ve, therefore we put a –ve sign before 6388 which gives – 6388 as required number.Illustration 9: 765.819 – 89.003 + 12.038 – 86.89 = ?Solution: First equate the number of digits after decimals by putting zero(s) at the end. So, 765.819 – 89.003 + 12.038 – 86.89
(–1) (–1) (–1) (–1) (+1) = 7 6 5 . 8 1 9 – 89.003 + 12.038 – 86.890= 601.964
SHORTCUTS FOR MULTIPLICATION
1. Line Segment Method of Multiplications of Two Whole Numbers of any Number of Digits
To clearly understand this method, we will discuss some examples.(i) Consider the multiplication of two digit numbers,
7 64 9�
The digit of the different places of the required product will be found out as follows.
(a) Finding the Units Place DigitTo Find the unit’s digit of the product of any two numbers, we alwaysfindtheproducttheirunit’sdigits.
Here product of unit digits = 6 × 9 = 54Unit’s digit 4 of 54 is the unit’s digit of the required product.
Tenth digit 5 of 54 will be carry over to the tens place.Thus
7 6
4 9�
4
�
5 carry over to the tens place.
EB
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Quantitative Aptitude For CAT
Publisher : Disha Publication ISBN : 9789386320667Author : Deepak Agrawal,D.P. Gupta
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