Exercise 5.1: Introduction To Euclid s Geometry

Similar documents
Class IX Chapter 5 Introduction to Euclid's Geometry Maths

5. Introduction to Euclid s Geometry

CHAPTER 5 INTRODUCTION TO EUCLID S GEOMETRY. 5.1 Introduction

Lecture 1: Axioms and Models

CLASS-IX MATHEMATICS. For. Pre-Foundation Course CAREER POINT

CLASS IX MATHS CHAPTER REAL NUMBERS

Contact. Emina. Office: East Hall 1825 Phone:

Class IX Chapter 1 Number Sustems Maths

Question 1: Is zero a rational number? Can you write it in the form p, where p and q are integers and q 0?

Yes zero is a rational number as it can be represented in the

Number Systems. Exercise 1.1. Question 1. Is zero a rational number? Can you write it in the form p q,

5. Introduction to Euclid s Geometry

October 16, Geometry, the Common Core, and Proof. John T. Baldwin, Andreas Mueller. The motivating problem. Euclidean Axioms and Diagrams

CAREER POINT PRE FOUNDATION DIVISON CLASS-9. IMO Stage-II Exam MATHEMATICS Date :

CLASS IX : CHAPTER - 1 NUMBER SYSTEM

Chapter (Circle) * Circle - circle is locus of such points which are at equidistant from a fixed point in

Class-IX CBSE Latest Pattern Sample Paper {Mathematics}

CBSE Class IX Syllabus. Mathematics Class 9 Syllabus

ADARSHA VIDYALAYA HUNASHYAL P.B

Mathematics Class 9 Syllabus. Course Structure. I Number System 17 II Algebra 25 III Geometry 37 IV Co-ordinate Geometry 6 V Mensuration 5 Total 90

Logic, Proof, Axiom Systems

REVISED vide circular No.63 on

CIRCLES MODULE - 3 OBJECTIVES EXPECTED BACKGROUND KNOWLEDGE. Circles. Geometry. Notes

chapter 1 vector geometry solutions V Consider the parallelogram shown alongside. Which of the following statements are true?

CHAPTER 1 NUMBER SYSTEMS. 1.1 Introduction

Geometry I (CM122A, 5CCM122B, 4CCM122A)

Unit 8. ANALYTIC GEOMETRY.

p, p or its negation is true, and the other false

Math 1230, Notes 2. Aug. 28, Math 1230, Notes 2 Aug. 28, / 17

KENDRIYA VIDYALAYA GACHIBOWLI, GPRA CAMPUS, HYD 32

Sample Question Paper Mathematics First Term (SA - I) Class IX. Time: 3 to 3 ½ hours

TRIPURA BOARD OF SECONDARY EDUCATION. SYLLABUS (effective from 2016) SUBJECT : MATHEMATICS (Class IX)

COURSE STRUCTURE CLASS IX Maths

EUCLID S AXIOMS A-1 A-2 A-3 A-4 A-5 CN-1 CN-2 CN-3 CN-4 CN-5

Mathematics 2260H Geometry I: Euclidean geometry Trent University, Winter 2012 Quiz Solutions

10. Circles. Q 5 O is the centre of a circle of radius 5 cm. OP AB and OQ CD, AB CD, AB = 6 cm and CD = 8 cm. Determine PQ. Marks (2) Marks (2)

2005 Euclid Contest. Solutions

CBSE OSWAAL BOOKS LEARNING MADE SIMPLE. Published by : 1/11, Sahitya Kunj, M.G. Road, Agra , UP (India) Ph.: ,

KENDRIYA VIDYALAYA SANGATHAN, HYDERABAD REGION

TERMWISE SYLLABUS SESSION CLASS-IX SUBJECT : MATHEMATICS. Course Structure. Schedule for Periodic Assessments and CASExam. of Session

Definitions. (V.1). A magnitude is a part of a magnitude, the less of the greater, when it measures

b UVW is a right-angled triangle, therefore VW is the diameter of the circle. Centre of circle = Midpoint of VW = (8 2) + ( 2 6) = 100

Stepping stones for Number systems. 1) Concept of a number line : Marking using sticks on the floor. (1 stick length = 1 unit)

Exercises for Unit V (Introduction to non Euclidean geometry)

(D) (A) Q.3 To which of the following circles, the line y x + 3 = 0 is normal at the point ? 2 (A) 2

a 2 + b 2 = (p 2 q 2 ) 2 + 4p 2 q 2 = (p 2 + q 2 ) 2 = c 2,

Additional Mathematics Lines and circles

MAT 3271: Selected solutions to problem set 7

Geometry and axiomatic Method

CMA Geometry Unit 1 Introduction Week 2 Notes

CCE RR. ( / English Version ) ( / New Syllabus ) ( / Regular Repeater )

Some Basic Logic. Henry Liu, 25 October 2010

HIGHER GEOMETRY. 1. Notation. Below is some notation I will use. KEN RICHARDSON

Euclid Geometry And Non-Euclid Geometry. Have you ever asked yourself why is it that if you walk to a specific place from

TOPIC-1 REAL NUMBERS. Rational Numbers WORKSHEET-1 WORKSHEET-2 P-1 SECTION. \ x = [CBSE Marking Scheme, 2012] S O L U T I O N S CHAPTER

Axiomatic Systems and Incidence Geometry. Summer 2009 MthEd/Math 362 Chapter 2 1

Definitions, Axioms, Postulates, Propositions, and Theorems from Euclidean and Non-Euclidean Geometries by Marvin Jay Greenberg ( )

DESIGN OF THE QUESTION PAPER

THE FIVE GROUPS OF AXIOMS.

MEP Pupil Text 13-19, Additional Material. Gradients of Perpendicular Lines

Activity Sheet 1: Constructions

FOUNDATION MATHEMATICS


KENDRIYA VIDYALAYA SANGATHAN, HYDERABAD REGION

KENDRIYA VIDYALAYA GACHIBOWLI, GPRA CAMPUS, HYD 32

CCE RR KARNATAKA SECONDARY EDUCATION EXAMINATION BOARD, MALLESWARAM, BANGALORE G È.G È.G È.. Æ fioê, d È 2017

STUDY MATERIAL SUBJECT: MATHEMATICS CLASS - IX

COURSE STRUCTURE CLASS -IX

CSE 1400 Applied Discrete Mathematics Proofs

1 k. cos tan? Higher Maths Non Calculator Practice Practice Paper A. 1. A sequence is defined by the recurrence relation u 2u 1, u 3.

Circles. Exercise 9.1

SOLUTIONS SECTION A SECTION B

MATHEMATICS (IX-X) (CODE NO. 041) Session

CONTENTS NUMBER SYSTEMS. Number Systems

+ 2gx + 2fy + c = 0 if S

Dr Prya Mathew SJCE Mysore

R1: Sets A set is a collection of objects sets are written using set brackets each object in onset is called an element or member

COMPLEX NUMBERS AND QUADRATIC EQUATIONS

» > NUMBER SYSTEM «< CLASSIFICATION OF NUMBERS (I) Natural numbers: Set of all non-fractional number from 1 to + oo, N = {1,2,3,4,...}.

KENDRIYA VIDYALAYA SANGATHAN, HYDERABAD REGION

Course Structure CLASS-IX. Chapter

POLYNOMIALS ML 5 ZEROS OR ROOTS OF A POLYNOMIAL. A real number α is a root or zero of polynomial f(x) = x + a x + a x +...

Definitions, Axioms, Postulates, Propositions, and Theorems from Euclidean and Non-Euclidean Geometries by Marvin Jay Greenberg ( )

Exercise 2.1. Identify the error or errors in the proof that all triangles are isosceles.

Part (1) Second : Trigonometry. Tan

UNIT 6. BELL WORK: Draw 3 different sized circles, 1 must be at LEAST 15cm across! Cut out each circle. The Circle

(x 1, y 1 ) = (x 2, y 2 ) if and only if x 1 = x 2 and y 1 = y 2.

CBSE MATHEMATICS (SET-2)_2019

CSE 215: Foundations of Computer Science Recitation Exercises Set #5 Stony Brook University. Name: ID#: Section #: Score: / 4

Euclidean Geometry. The Elements of Mathematics

Constructions with ruler and compass.

Chapter 3. Betweenness (ordering) A system satisfying the incidence and betweenness axioms is an ordered incidence plane (p. 118).

Baltic Way 2008 Gdańsk, November 8, 2008

How can you find decimal approximations of square roots that are not rational? ACTIVITY: Approximating Square Roots

Introduction Circle Some terms related with a circle

Exhaustion: From Eudoxus to Archimedes

CBSE Sample Paper-05 (Solved) SUMMATIVE ASSESSMENT I MATHEMATICS Class IX. Time allowed: 3 hours Maximum Marks: 90. Section A.

C-1. Snezana Lawrence

Test Codes : MIA (Objective Type) and MIB (Short Answer Type) 2007

Algebraic. techniques1

Transcription:

Exercise 5.1: Introduction To Euclid s Geometry Email: info@mywayteaching.com Q1. Which of the following statements are true and which are false? Give reasons for your answers. (i)only one line can pass through a single point. (ii)there are an infinite number of lines which pass through two distinct points. (iii)a terminated line can be produced indefinitely on both the sides. (iv)if two circles are equal, then their radii are equal. (v)in the following figure, if AB = PQ and PQ = XY, then AB = XY. Answer: (i) False. Since through a single point, infinite number of lines can pass. In the following figure, it can be seen that there are infinite numbers of lines passing through a single point P. (ii) False. Since through two distinct points, only one line can pass. In the following figure, it can be seen that there is only one single line that can pass through two distinct points P and Q. (iii) True. A terminated line can be produced indefinitely on both the sides. Let AB be a terminated line. It can be seen that it can be produced indefinitely on both the sides. (iv) True. If two circles are equal, then their centre and circumference will coincide and hence, the radii will also be equal. Mathematics: Class IX, Chapter 5 Page 1

(v) True. It is given that AB and XY are two terminated lines and both are equal to a third line PQ. Euclid s first axiom states that things which are equal to the same thing are equal to one another. Therefore, the lines AB and XY will be equal to each other. Q2. Give a definition for each of the following terms. Are there other terms that need to be defined first? What are they, and how might you define them? (i) Parallel lines (ii) Perpendicular lines (iii) line segment (iv)radius of a circle (v) square Answer: (i) Parallel Lines If the perpendicular distance between two lines is always constant, then these are called parallel lines. In other words, the lines which never intersect each other are called parallel lines. To define parallel lines, we must know about point, lines, and distance between the lines and the point of intersection. (ii) Perpendicular lines If two lines intersect each other at 90 0, then these are called perpendicular lines. We are required to define line and the angle before defining perpendicular lines. (iii) Line segment A straight line drawn from any point to any other point is called as line segment. To define a line segment, we must know about point and line segment. Mathematics: Class IX, Chapter 5 Page 2

(iv) Radius of a circle It is the distance between the centres of a circle to any point lying on the circle. To define the radius of a circle, we must know about point and circle. (v) Square A square is a quadrilateral having all sides of equal length and all angles of same measure, i.e. 90 0. To define square, we must know about quadrilateral, side, and angle. Q3. Consider the two postulates given below: (i) Given any two distinct points A and B, there exists a third point C, which is between A and B. (ii) There exists at least three points that are not on the same line. Do these postulates contain any undefined terms? Are these postulates consistent? Do they follow from Euclid s postulates? Explain. Answer: There are various undefined terms in the given postulates. The given postulates are consistent because they refer to two different situations. Also, it is impossible to deduce any statement that contradicts any well-known axiom and postulate. These postulates do not follow from Euclid s postulates. They follow from the axiom, Given two distinct points, there is a unique line that passes through them. Q4. If a point C lies between two points A and B such that AC = BC, then prove that AC = 1 AB. Explain by drawing the figure. 2 Mathematics: Class IX, Chapter 5 Page 3

Answer: It is given that, AC = BC AC + AC = BC + AC (Equals are added on both sides)...(1) Here, (BC + AC) coincides with AB. It is known that things which coincide with one another are equal to one another. BC + AC = AB (2) It is also known that things which are equal to the same thing are equal to one another. Therefore, from equations (1) and (2), we obtain AC + AC = AB 2AC = AB AC = 1 2 AB Q5. In the above question, point C is called a mid-point of line segment AB, prove that every line segment has one and only one mid-point. Answer: Let there be two mid-points, C and D. C is the mid-point of AB. AC = CB AC + AC = BC + AC (Equals are added on both sides) (1) Here, (BC + AC) coincides with AB. It is known that things which coincide with one another are equal to one another. BC + AC = AB (2) It is also known that things which are equal to the same thing are equal to one another. Therefore, from equations (1) and (2), we obtain AC + AC = AB 2AC = AB (3) Similarly, by taking D as the mid-point of AB, it can be proved that 2AD = AB (4) From equation (3) and (4), we obtain 2AC = 2AD (Things which are equal to the same thing are equal to one another.) AC = AD (Things which are double of the same things are equal to one another.) This is possible only when point C and D are representing a single point. Hence, our assumption is wrong and there can be only one mid-point of a given line segment. Mathematics: Class IX, Chapter 5 Page 4

Q6. In the following figure, if AC = BD, then prove that AB = CD. Answer: From the figure, it can be observed that AC = AB + BC BD = BC + CD It is given that AC = BD AB + BC = BC + CD (1) According to Euclid s axiom, when equals are subtracted from equals, the remainders are also equal. Q7. Why is Axiom 5, in the list of Euclid s axioms, considered a universal truth? (Note that the question is not about the fifth postulate.) Answer: Axiom 5 states that the whole is greater than the part. This axiom is known as a universal truth because it holds true in any field, and not just in the field of mathematics. Let us take two cases one in the field of mathematics, and one other that. Case I Let t represent a whole quantity and only a, b, c are parts of it. t = a + b + c Clearly, t will be greater than all its parts a, b, and c. Therefore, it is rightly said that the whole is greater than the part. Case II Let us consider the continent Asia. Then, let us consider a country India which belongs to Asia. India is a part of Asia and it can also be observed that Asia is greater than India. That is why we can say that the whole is greater than the part. This is true for anything in any part of the world and is thus a universal truth. Mathematics: Class IX, Chapter 5 Page 5

Exercise 5.2: Introduction to Euclid s Geometry Email: info@mywayteaching.com Q1. How would you rewrite Euclid s fifth postulate so that it would be easier to understand? Answer: Two lines are said to be parallel if they are equidistant from one other and they do not have any point of intersection. In order to understand it easily, let us take any line l and a point P not on l. Then, by Playfair s axiom (equivalent to the fifth postulate), there is a unique line m through P which is parallel to l. The distance of a point from a line is the length of the perpendicular from the point to the line. Let AB be the distance of any point on m from l and CD be the distance of any point on l from m. It can be observed that AB = CD. In this way, the distance will be the same for any point on m from l and any point on l from m. Therefore, these two lines are everywhere equidistant from one another. (ii) False; as negative numbers cannot be expressed as the square root of any other number. (iii) False; as real numbers include both rational and irrational numbers. Therefore, every real number cannot be an irrational number. Q2. Does Euclid s fifth postulate imply the existence of parallel lines? Explain. Answer: Yes. According to Euclid s 5 th postulate, when n line falls on l and m and if,producing line l and m further will meet in the side of 1 and 2 which is less than 180 0 1 + 2 < 180 0, then 3 + 4 > 180 0 Mathematics: Class IX, Chapter 5 Page 6

1 + 2 =180 0, then 3 + 4 = 180 0 The lines l and m neither meet at the side of 1 and 2 nor at the side of 3 and 4. This means that the lines l and m will never intersect each other. Therefore, it can be said that the lines are parallel. ------------ Mathematics: Class IX, Chapter 5 Page 7

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback