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Equivalent Versions of Euclids Fifth Postulate and Euclids Geometry, Class 9, Mathematics | Extra Documents & Tests for Class 9 PDF Download

EQUIVALENT VERSIONS OF EUCLID'S FIFTH POSTULATE

There are several equivalent versions of the fifth postulate of Euclid. One such version is stated as "Playfair's Axiom" which was given by Scotish mathematician John Play Fair in 1929 and was named as "Play Fair's Axiom".

Playfair's Axiom (Axiom for Parallel Lines)
For every line NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and for every point P not lying on NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9, there exists a unique line m passing
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
through P and parallel to NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9.
Another version of the above axiom is as stated below : Two disinct intersecting lines cannot be parallel to the same line. In figure, there are infinitely many straight line through P but there is exactly one line m which is parallel to NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9. Thus, two intersecting lines cannot be parallel to the same line.

SOME TERMS RELATED TO GEOMETRY

(i) Line                              
 (ii) Ray                        
 (iii) Line segment                
 (iv) Collinear points
 (v) Intersecting lines                
 (vi) Concurrent lines          
 (vii) Parallel lines
 (vii) Perpendicular lines              
 (ix) Radius

(i) Line : A line has length but no width or thickness.A line is unlimited in extent.
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
It extends in both the direction without end. The given figure shows a line AB. A

(ii) Ray : A straight line, generated by a point and moving in the same direction

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
is called a ray. The given figure shows a ray AB.

(iii) Line segment : It is the part of a line whose both the ends are fixed (terminated).

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
The given figure shows a line segment AB.

(iv) Collinear points : Three or more points lying on the same straight line are 

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
called collinear points. In the given figure, points A, B and C lie on the same straight line, so these points are collinear.

(v) Intersecting lines : If two lines have a common point, the lines are said to be

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
intersecting lines. In the given figure, line NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and m have common point O, m therefore these lines are intersecting lines.

(vi) Concurrent lines : Three or more lines in a plane are said to be concurrent o if all of them pass through the same point. In the given figure, four lines are passing through the same point O, therefore these lines are concurrent lines. The common point O is called the point
of concurrency.

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9

(vii) Parallel lines : Two lines are said to be parallel to each other if they do not have common point. i.e. they do not intersect.
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
The given figure shows two parallel lines, AB and CD which will never intersect on producing both of these in any direction and upto any extent.

(viii) Perpendicular lines : Two lines which are at a right angle to each other are called perpendicular lines.

(ix) Radius : The length of the line-segment joining the centre of a circle to any point on its circumference is called its radius.

Ex. If a point C lies between two points A and B such that AC = BC, then prove that AC = (1over2)
AB. Explain by drawing the figure.


Sol. According to the given statement, the figure will be as shown alongside in which the point C lies between two
points A and B such that AC = BC.
Clearly, AC + BC = AB

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9AC + AC = AB NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 [NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 AC = BC] 
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 92AC = AB NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 AC = (1over 2)AB

Theorem 1 : Two distinct lines cannot have more than one point in common.
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
Given : Two distinct line NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9and m.
To prove : Lines NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and m have at most one point in common.
Proof : Two distinct lines NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9and m intersect at a point P.
Let us suppose they will interect at another point, say Q (different from P). NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 It means two lines NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and m passing through two distinct points P and Q. But it is contrary to the axiom 5.1 which states that "Given two distinct points, there exists one and only one line pass through them". So our supposition is wrong.
Hence, two distinct lines cannot have more than one point in common.

Theorem 2 : Two lines which are both parallel to the same line, are parallel to each other.
Given : Three lines NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9, m, n in a plane such that m || NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and n || NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9. m
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
To prove : m || n n
Proof : If possible, let m be not parallel to n. Then, m and n intersect in a unique point, say P.
Thus, through a point P outside NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9, there are two lines m and n both parallel to NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9. This is a contradiction to the parallel axiom. So, our supposition is wrong. Hence m || n.

Theorem 3 : IfNCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9, m, n are lines in the same plane such thatNCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 intersects m and n || m, then NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 intersects n also.
Given : Three lines NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 , m, n in the same plane such that NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9intersect m and n|| m.
To prove: Lines NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and n are intersecting lines
Proof: Let NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and n be non intersecting lines. Then NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9|| n
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
But, n || m
NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and m are non intersecting lines.
This is a contradiction to the hypothesis that NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 and m are intersecting lines.
So, our supposition is wrong. Hence, lineNCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9 intersects line n.

 

Ex. In figure, C is mid-point of the segment AB, P and Q are mid-point of the segment AC and BC respectively.
Prove Equivalent Versions of Euclids Fifth Postulate and Euclids Geometry, Class 9, Mathematics | Extra Documents & Tests for Class 9

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9
Sol. In figure, C is mid-point of the segment AB.

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9

 

Ex. In figure, AD = BC, then prove that AC = BD. 

NCRT,Question and Answer,Important,Class 9 Mathematics,CBSE Class 9

Sol. In figure, we have
AD = BC ⇒ AC + CD = BD + CD ... (1)
By the application of Euclid's axiom (2) when we add CD from both side of (1), the whole part sides of (1) are equal.
⇒ ∴ AC = BD.

The document Equivalent Versions of Euclids Fifth Postulate and Euclids Geometry, Class 9, Mathematics | Extra Documents & Tests for Class 9 is a part of the Class 9 Course Extra Documents & Tests for Class 9.
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FAQs on Equivalent Versions of Euclids Fifth Postulate and Euclids Geometry, Class 9, Mathematics - Extra Documents & Tests for Class 9

1. What is Euclid's Fifth Postulate in geometry?
Ans. Euclid's Fifth Postulate, also known as the parallel postulate, states that if a line intersects two other lines in such a way that the sum of the interior angles on one side is less than two right angles, then the two lines, when extended indefinitely, will eventually intersect on that side.
2. What are the equivalent versions of Euclid's Fifth Postulate?
Ans. There are several equivalent versions of Euclid's Fifth Postulate. Some of them include: - Playfair's Postulate: Through a point not on a given line, only one line can be drawn parallel to the given line. - Proclus' Axiom: If a line intersects one of two parallel lines, it will also intersect the other line. - Bolyai-Lobachevskian Geometry: In this non-Euclidean geometry, there can be multiple parallel lines through a given point that do not intersect the given line.
3. What is Euclid's Geometry?
Ans. Euclid's Geometry is a mathematical system developed by the ancient Greek mathematician Euclid. It is a deductive mathematical system that comprises a set of axioms, postulates, and definitions, from which various theorems and propositions can be proven. Euclid's Geometry is known for its logical structure and rigor.
4. What is the significance of Euclid's Fifth Postulate?
Ans. Euclid's Fifth Postulate is significant because it distinguishes between Euclidean geometry and non-Euclidean geometries. Euclidean geometry follows this postulate, resulting in the familiar geometry we learn in school. However, non-Euclidean geometries, such as hyperbolic and elliptic geometries, reject or modify this postulate, leading to different geometric systems with unique properties.
5. How does Euclid's Fifth Postulate relate to parallel lines?
Ans. Euclid's Fifth Postulate establishes a criterion for determining whether two lines are parallel. It states that if a line intersects two other lines in such a way that the sum of the interior angles on one side is less than two right angles, then the two lines, when extended indefinitely, will eventually intersect on that side. This postulate provides a condition for the existence of parallel lines in Euclidean geometry.
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