Pair of Straight Lines PDF
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This document covers the theory and methods used for calculating pair of straight lines in mathematics. It includes various equations and examples to illustrate different approaches, making it a helpful learning resource.
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3.1 Equation of Pair of Straight lines. Let the equation of two lines be a x b y c 0.....(i) and a x b y c 0 60 60 Pair of Straight Lines.....(ii) E3 Hence (a x b y c )(a x b y c ) 0 is called the joint equation of lines (i) and (ii) and conversely, if joint...
3.1 Equation of Pair of Straight lines. Let the equation of two lines be a x b y c 0.....(i) and a x b y c 0 60 60 Pair of Straight Lines.....(ii) E3 Hence (a x b y c )(a x b y c ) 0 is called the joint equation of lines (i) and (ii) and conversely, if joint equation of two lines be (a x b y c ) (a x b y c ) 0 then their separate equation will be a x b y c 0 and ax by c 0. (1) Equation of a pair of straight lines passing through origin : The equation ax 2 2hxy by 2 0 ID represents a pair of straight line passing through the origin where a, h, b are constants. Let the lines represented by ax 2 2hxy by 2 0 be y m 1 x 0 and y m 2 x 0 h h 2 ab h h 2 ab 2h a and m 2 = then, m 1 m 2 and m 1 m 2 b b b b U where, m 1 Then, two straight lines represented by ax 2 2hxy by 2 0 are ax hy y h 2 ab = 0 and Note : D YG ax hy y h 2 ab 0. The lines are real and distinct if h 2 ab 0 The lines are real and coincident if h 2 ab 0 The lines are imaginary if h 2 ab 0 If the pair of straight lines ax 2 2hxy by 2 0 and a' x 2 2h' xy b' y 2 0 should U have one line common, then (ab'a' b) 2 4(ah'a' h)(hb'h' b). The equation of the pair of straight lines passing through origin and perpendicular to the pair of straight lines represented by ax 2 2hxy by 2 0 is ST given by bx 2 2hxy ay 2 0 If the slope of one of the lines represented by the equation ax 2 2hxy by 2 0 be the square of the other, then a 2 b ab 2 6 abh 8 h 3 0. If the slope of one of the lines represented by the equation ax 2 2hxy by 2 0 be times that of the other, then 4 h 2 ab(1 )2. (2) General equation of a pair of straight lines : An equation of the form, ax 2 2hxy by 2 2 gx 2 fy c 0 where a, b, c, f, g, h are constants, is said to be a general equation of second degree in x and y. Pair of Straight Lines 61 The necessary and sufficient condition for ax 2 2hxy by 2 2 gx 2 fy c 0 to represent a a h pair of straight lines is that abc 2 fgh af bg ch 0 or h b g f 2 2 g f 0 c 2 60 (3) Separate equations from joint equation: The general equation of second degree be ax 2hxy by 2 2 gx 2 fy c 0. To find the lines represented by this equation we proceed as 2 follows : Step I : Factorize the homogeneous part ax 2 2hxy by 2 into two linear factors. Let the E3 linear factors be a' x b ' y and a" x b " y. Step II: Add constants c ' and c" in the factors obtained in step I to obtain a' x b ' y c' and a" x b " y c". Let the lines be a' x b ' y c' 0 and a" x b " y c" 0. If the sum of the slopes of the lines given by x 2 2cxy 7 y 2 0 is four times their product. Then c has U Example: 1 ID Step III : Obtain the joint equation of the lines in step II and compare the coefficients of x, y and constant terms to obtain equations in c' and c". Step IV : Solve the equations in c' and c" to obtain the values of c' and c". Step V : Substitute the values of c' and c" in lines in step II to obtain the required lines. the value Solution: (c) (b) – 1 We know that, m 1 m 2 (b) bm 2 2hm a 0 (c) am 2 2hm b 0 U ax 2 2hx (mx ) b(mx )2 0 a 2hm bm 2 0 If the equation 12 x 2 10 xy 2y 2 11 x 5 y K 0 represent two straight lines, then the value of K is [MP PET 20 ST (a) 1 Solution: (b) (d) bm 2 2hm a 0 Substituting the value of y in the equation ax 2 2hxy by 2 0 Example: 3 2c 1 4 c 2 7 7 If one of the lines represented by the equation ax 2 2hxy by 2 0 be y mx , then (a) bm 2 2hm a 0 Solution: (a) (d) 1 2h a and m 1 m 2 . b b Given, m1 m2 4 m1m2 Example: 2 [AIEEE 2004] (c) 2 D YG (a) – 2 Condition (b) 2 for pair (c) 0 of lines, (d) 3 abc 2 fgh af 2 bg 2 ch 2 0 , Here a 12, h 5, b 2, g 11 / 2, f 5 / 2, c K Then, 12 2 K 2 2 2 5 11 5 11 12 2 K(5) 2 0. On solving, we get K= 2. 2 2 2 2 3.2 Angle between the Pair of Lines. (1) The angle between the pair of lines represented by ax 2 2hxy by 2 0 is given by tan 2 h 2 ab ab (i) The lines are coincident if the angle between them is zero. 62 Pair of Straight Lines Lines are coincident i.e., 0 tan 0 2 h 2 ab 0 h 2 ab 0 h 2 ab ab Hence, the lines represented by ax 2 2hxy by 2 0 are coincident, iff h 2 ab (ii) The lines are perpendicular if the angle between them is / 2. cot cot 2 2 ab cot 0 2 h ab 2 0 a b 0 coeff. of x 2 coeff. of 60 y 0 2 of y 2 0. E3 Thus, the lines represented by ax 2 2hxy by 2 0 are perpendicular iff a b 0 i.e., coeff. of x 2 coeff. (2) The angle between the lines represented by ax 2 2hxy by 2 2 gx 2 fy c 0 is given by 2 h 2 ab ab tan 1 2 h 2 ab ab ID tan (i) The lines are parallel if the angle between them is zero. Thus, the lines are parallel iff 2 h 2 ab 0 h 2 ab. ab U 0 tan 0 D YG Hence, the lines represented by ax 2 2hxy by 2 2 gx 2 fy c 0 are parallel iff h 2 ab and af 2 bg 2 or a h g . h b f (ii) The lines are perpendicular if the angle between them is / 2. ab Thus, the lines are perpendicular i.e., / 2 cot 0 0 2 h 2 ab a b 0 coeff. of x 2 coeff. of y 2 0 ax 2 2hxy by 2 2 gx 2 fy c 0 are perpendicular iff U Hence, the lines represented by ab 0 i.e., coeff. of x 2 coeff. of y 2 0. ST (iii) The lines are coincident, if g 2 ac. Example: 4 The angle between the lines x 2 xy 6 y 2 7 x 31 y 18 0 is (a) 45 o (b) 60 Angle between the lines is tan 1 45 o Example: 5 If the angle between the x 3 xy y 3 x 5 y 2 0 is tan (a) 2 (c) 90 o 2 (b) 0 [Karnataka CET 2003] (d) 30 2 Solution: (b) 2 o o 1 2 6 2 1 (6) 2 h 2 ab 4 2 = tan 1 tan 1 | 1 | tan 1 (1) , 1 tan ab 4 1 ( 6 ) 1 (6 ) 1 pair of straight lines represented by the 1 , where is a non- negative real number, then is 3 1 (c) 3 (d) 1 equation Pair of Straight Lines 63 1 1 Given that tan 1 tan 3 3 Solution: (a) 2 ( 1) 2 9(9 4 ) 2 38 80 0 60 3 2 1 2 2 h 2 ab Now, since tan = 1 3 ab 2 40 2 80 0 ( 40 ) 2( 40 ) 0 ( 2)( 40 ) 0 2 or – 40, but is a nonnegative real number. Hence 2. The angle between the pair of straight lines represented by 2 x 2 7 xy 3 y 2 0 is Example: 6 (a) 60 o E3 [Kurukshetra CEE 2002] (c) tan 1 (7 / 6) (b) 45 o (d) 30 o 2 Angle between the lines is , tan 1 2 h 2 ab tan 1 ab 2 5 tan 1 . tan 1 (1) 5 2 ID Solution: (b) 7 2 (2)(3) 2 23 45 o 3.3 Bisectors of the Angles between the Lines. x 2 y 2 xy ab h.....(i) D YG equation ax 2 2hxy by 2 0 is U (1) The joint equation of the bisectors of the angles between the lines represented by the hx 2 (a b)xy hy 2 0 Here, coefficient of x 2 coefficient of y 2 0. Hence, the bisectors of the angles between the lines are perpendicular to each other. The bisector lines will pass through origin also. Note : If a b , the bisectors are x 2 y 2 0 i.e., x y 0, x y 0 If h 0 , the bisectors are xy 0 i.e., x 0, y 0. U If bisectors of the angles between lines represented by ax 2 2hxy by 2 0 and h' a'b '. h ab ST a' x 2 2h' xy b ' y 2 0 are same, then If the equation ax 2 2hxy by 2 0 has one line as the bisector of the angle between the coordinate axes, then 4 h 2 (a b)2. (2) The equation of the bisectors of the angles between the lines represented by (x ) (y ) 2 (x )(y ) , where , is the ab h point of intersection of the lines represented by the given equation. ax 2 2hxy by 2 + 2 gx 2 fy c 0 are given by Example: 7 The equation of the bisectors of the angles between the lines represented by x 2 2 xy cot y 2 0 is (a) x 2 y 2 0 (b) x 2 y 2 xy x y xy x y xy or 0 cot ab h 2 Solution: (a) Equation of bisectors is given by (c) (x 2 y 2 ) cot 2 xy 2 2 2 (d) None of these x2 y2 0 64 Pair of Straight Lines Example: 8 If the bisectors of the lines x 2 2 pxy y 2 0 be x 2 2qxy y 2 0, then [MP PET 1993; DCE 1999; Rajasthan PET 2003; AIEEE 2003] Solution: (a) (b) pq 1 0 (c) p q 0 Bisectors of the angle between the lines x 2 2 pxy y 2 0 is But it is represented by x 2 2qxy y 2 0. Therefore (d) p q 0 x2 y2 1 (1) px 2 2 xy py 2 0 xy p p 2 pq 1 pq 1 0 1 2q 60 (a) pq 1 0 For point of intersection (Keeping y as constant) (Keeping x as constant) 0 0 and y x ID and 2ax 2hy 2 g 0 x 2 hx 2by 2 f 0 y E3 3.4 Point of Intersection of Lines represented by ax2+2hxy+by2+2gx+2fy+c = 0. Let ax 2 2hxy by 2 2 gx 2 fy c 0 We obtain, ax hy g 0 and hx by f 0 x y 1 fh bg gh af ab h 2 U On solving these equations, we get bg fh af gh , 2 2 h ab h ab i.e. (x , y ) D YG a h g Also, since h b f , from first two rows g f c a h g ax hy g 0 and h b f hx by f 0 and then solve, we get the point of intersection. Note The point of intersection of the lines represented by the equation 2 x 2 3 y 2 7 xy 8 x 14 y 8 0 is U Example: 9 : The point of intersection of lines represented by ax 2 2hxy by 2 0 is (0, 0). (a) (0 , 2) (c) (2,0) (d) (2, 1) Let 2 x 2 3 y 2 7 xy 8 x 14 y 8 0 ST Solution: (c) (b) (1, 2) 4 x 7 y 8 0 and 6 y 7 x 14 0 x y On solving these equations, we get x 2, y 0 Trick : If the equation is ax 2 2hxy by 2 2 gx 2 fy c 0 hf bg hg af , The points of intersection are given by . Hence point is (– 2, 0) 2 2 ab h ab h Example: 10 If the pair of straight lines xy x y 1 0 and line ax 2 y 3 0 are concurrent, then a = (a) – 1 Solution: (d) (b) 0 (c) 3 Given that equation of pair of straight lines xy x y 1 0 (d) 1 Pair of Straight Lines 65 (x 1)(y 1) 0 x 1 0 or y 1 0 The intersection point of x 1 0, y 1 0 is (1,1) Lines x 1 0, y 1 0 and ax 2 y 3 0 are concurrent. The intersecting points of first two lines satisfy the third line. 60 Hence, a 2 3 0 a 1 3.5 Equation of the Lines joining the Origin to the Points of Intersection of a given Line and a given Curve. The equation of the lines which joins origin to the point of intersection of the line homogeneous with the help of 2 lx my lx my ax 2 2hxy by 2 2(gx fy) c 0 n n and line lx my n 0 , ID We have ax 2 2hxy by 2 2 gx 2 fy c 0 E3 lx my n 0 and curve ax 2 2hxy by 2 2 gx 2 fy c 0 , can be obtained by making the curve lx my n 0 which is......(i).....(ii) U Suppose the line (ii) intersects the curve (i) at two points A and B. We wish to find the combined equation of the straight lines OA and OB. Clearly OA and OB pass through the origin, so their joint equation is a homogeneous D YG equation of second degree in x and y. From equation (ii), lx my n......(iii) Y A lx+my+n=0 lx my 1 n X' B O X Now, consider the equation 2 lx my lx my lx my ax 2hxy by 2 gx 0.....(i 2 fy c n n n 2 U v) Y 2 ST Clearly, this equation is a homogeneous equation of second degree. So, it represents a pair of straight lines passing through the origin. Moreover, it is satisfied by the points A and B. Hence (iv) represents a pair of straight lines OA and OB through the origin O and the points A and B which are points of intersection of (i) and (ii). Example: 11 The lines joining the origin to the point of intersection of the circle x 2 y 2 3 and the line x y 2 are (a) y (3 2 2 )x 0 (b) x (3 2 2 )y 0 (c) x (3 2 2 )y 0 (d) y (3 2 2 )x 0 Solution: (a,b,c,d) Make homogenous the equation of circle, we get x 2 6 xy y 2 0 x 6 y (36 4 )y 2 2 6y 4 2y 3y 2 2y 2 Hence, the equation are x (3 2 2 )y and x (3 2 2 )y Also after rationalizing these equations becomes y (3 2 2 )x 0 and y (3 2 2 )x 0. 66 Pair of Straight Lines Example: 12 The pair of straight lines joining the origin to the points of intersection of the line y 2 2 x c and the circle x 2 y 2 2 are at right angles, if [MP PET 1996] (a) c 2 4 0 Pair of straight lines joining the origin to the points of intersection of the line y 2 2 x c and the circle x 2 y 2 2 are 2 60 Solution: (c) (d) c 2 10 0 (c) c 2 9 0 (b) c 2 8 0 2 2x y 0 x 2 y 2 2 8 x 2 y 2 4 2 xy 0 x 2 1 16 y 2 1 2 8 2 xy 0 x y (2) c c2 c2 c2 c2 2 If these lines are perpendicular, 1 2c 2 18 c 2 0 c 2 16 2 1 2 0 c2 c E3 2 9 0. ID 3.6 Removal of First degree Terms. ax 2 2hxy by 2 2 gx 2 fy c 0......(i) Let point of intersection of lines represented by is ( , ). D YG be (Y ) in (i). U bg fh af gh Here ( , ) 2 , 2 h ab h ab For removal of first degree terms, shift the origin to ( , ) i.e., replacing x by ( X ) and y Alternative Method : Direct equation after removal of first degree terms is aX 2 2hXY bY 2 (g f c) 0 Where bg fh af gh and 2 2 h ab h ab 3.7 Removal of the Term xy from f (x, y) = ax2 + 2hxy +by2 without changing the Origin. U Clearly, h 0. Rotating the axes through an angle , we have, x X cos Y sin and y X sin Y cos f (x , y) ax 2 2hxy by 2 ST After rotation, new equation is F(X , Y ) (a cos 2 2h cos sin b sin 2 )X 2 2{(b a)cos sin h(cos 2 sin 2 )XY (a sin 2 2h cos sin b cos 2 )Y 2 ab Now coefficient of XY = 0. Then we get cot 2 2h Note : Usually, we use the formula, tan 2 . However, if a b , we use cot 2 Example: 13 2h ab for finding the angle of rotation, ab as in this case tan 2 is not defined. 2h The new equation of curve 12 x 2 7 xy 12 y 2 17 x 31 y 7 0 after removing the first degree terms (a) 12 X 2 7 XY 12Y 2 0 (b) 12 X 2 7 XY 12 Y 2 0 Pair of Straight Lines 67 (c) 12 X 2 7 XY 12Y 2 0 Solution: (c) (d) None of these Let 12 x 7 xy 12 y 17 x 31 y 7 0 2 2.....(i) 24 x 7 y 17 0 and 7 x 24 y 31 0 x y Their point of intersection is (x , y ) (1,1) 60 Here 1, 1 Shift the origin to (1, –1) then replacing x X 1 and y Y 1 in (i), the required equation is 12(X 1)2 7(X 1)(Y 1) 12(Y 1)2 17 (X 1) 31(Y 1) 7 0 i.e., 12 X 2 7 XY 12Y 2 0 Alternative Method : Here 1 and 1 and g 17 / 2, f 31 / 2, c 7 17 31 1 1 7 0 2 2 g f c Removed equation is aX 2 2hXY bY 2 (g f c) 0 12 X 2 7 XY 12 Y 2 0 0 12 X 2 7 XY 12Y 2 0. i.e., Example: 14 E3 Mixed term xy is to be removed from the general equation ax 2 by 2 2hxy 2 gx 2 fy c 0 , one should ab 2h (a) Solution: (d) (b) 2h ab ID rotate the axes through an angle given by tan 2 = (c) ab 2h (d) 2h ab Let (x ' , y ' ) be the coordinates on new axes, then put x x ' cos y ' sin , y x ' sin y ' cos in the D YG U equation, then the coefficient of xy in the transformed equation is 0. 2h So, 2(b a) sin. cos 2h cos 2 0 tan 2 ab 3.8 Distance between the Pair of parallel Straight lines s If ax 2 2hxy by 2 2 gx 2 fy c 0 represent a pair of parallel straight lines, then the distance between them is given by 2 Example: 15 Distance between the pair of lines represented by the equation x 2 6 xy 9 y 2 3 x 9 y 4 0 [Kerala (Engg.) 20 15 1 5 (b) (c) 2 2 10 The distance between the pair of straight lines given by (a) (d) U Solution: (c) g 2 ac f 2 bc or 2 b(a b) a(a b ) g 2 ac 3 ax 2hxy by 2 gx 2 fy c 0 is 2 , Here a 1, b 9, c 4 , g 2 a(a b ) 2 2 ST 2 Example: 16 Solution: (a) 1 10 9 (4 ) 4 2 1(1 9 ) 25 4 10 5 2 Distance between the lines represented by the equation x 2 2 3 xy 3 y 2 3 x 3 3 y 4 0 is [Roorkee 1989] (a) 5/2 (b) 5/4 (c) 5 (d) 0 3 1 3 a h g 2 First check for parallel lines i.e., 3 h b f 3 3 3 2 which is true, hence lines are parallel. 5/2 3.9 Some Important Results Distance between them is 2 (3 / 2)2 1(4 ) g 2 ac 2 a(a b ) 1(1 3) 68 Pair of Straight Lines (1) The lines joining the origin to the points of ax 2hxy by 2 2 gx 0 and a' x 2 2h' xy b ' y 2 2 g' x 0 will be g(a'b ' ) g ' (a b). 2 intersection of the curves mutually perpendicular, if (2) If the equation hxy gx fy c 0 represents a pair of straight lines, then fg ch. 60 (3) The pair of lines (a 2 3b 2 )x 2 8 abxy (b 2 3a 2 ) y 2 0 with the line ax by c 0 form an equilateral triangle. (4) The area of a triangle formed by the lines ax 2 2hxy by 2 0 and lx my n 0 is given by E3 n 2 h 2 ab am 2 2 hlm bl 2 (5) The lines joining the origin to the points of intersection of line y mx c and the circle x 2 y 2 a 2 will be mutually perpendicular, if a 2 (m 2 1) 2c 2. equation of lines is (xy 1 yx 1 )2 d 2 (x 2 y 2 ) ID (6) If the distance of two lines passing through origin from the point ( x 1 , y 1 ) is d, then the ax 2 2hxy by 2 2 gx 2 fy c 0 will be (7) The lines represented by the equation equidistant from the origin, if f 4 g 4 c(bf 2 ag 2 ) U (8) The product of the perpendiculars drawn from ( x 1 , y 1 ) on the lines ax 2 2hxy by 2 0 is given by ax 12 2 hx 1 y 1 by 12 D YG (a b ) 2 4 h 2 (9) The product of the ax 2hxy by 2 2 gx 2 fy c 0 is 2 perpendiculars drawn from origin on the lines c (a b)2 4 h 2 ST U (10) If the lines represented by the general equation ax 2 2hxy by 2 2 gx 2 fy c 0 are perpendicular, then the square of distance between the point of intersection and origin is f 2 g2 h2 b 2 (11) The square of distance between the point of intersection of the lines represented by c(a b) f 2 g 2 the equation ax 2 2hxy by 2 2 gx 2 fy c 0 and origin is ab h 2 Example: 17 The area of the triangle formed by the lines 4 x 2 9 xy 9 y 2 0 and x 2 is (a) 2 Solution: (c) (b) 3 (c) 10 3 The area of triangle formed by the lines ax 2 2hxy by 2 0 n 2 h 2 ab am 2 2hlm bl 2 9 Here a 4 , b 9, h , l 1, m 0, n 2 , then area of triangle 2 [Roorkee 2000] (d) and 20 3 lx my n 0 is given by Pair of Straight Lines 69 2 9 9 81 36 (2)2 4 4 2 2 4 2 30 10 = = 3 9 9 9 (1)2 The orthocentre of the triangle formed by the lines xy 0 and x y 1 is Solution: (a) 1 1 (c) , 3 3 1 1 (d) , 4 4 Lines represented by xy 0 is x 0 , y 0. Then the triangle formed is right angled triangle at O(0, 0), therefore O(0, 0) is its orthocentre. Y x+y=1 O ID x=0 X y=0 If the pair of straight lines given by Ax 2 2 Hxy By 2 0, (H 2 AB ) forms an equilateral triangle with U Example: 19 60 1 1 (b) , 2 2 (a) (0, 0) [IIT 1995] E3 Example: 18 line ax by c 0 then ( A 3 B)(3 A B) is (b) H Solution: (d) (c) 2H 2 D YG (a) H 2 [EAMCET 2003] (d) 4 H 2 We know that the pair of lines (a 2 3b 2 )x 2 8 abxy (b 2 3a 2 )y 2 0 with the line ax by c 0 form an equilateral triangle. Hence comparing with Ax 2 2 Hxy By 2 0 then 2H 8 ab ST U Now ( A 3 B)(3 A B) (8 a 2 )(8 b 2 ) (8 ab)2 (2 H )2 4 H 2. *** A a 2 3b 2 , B b 2 3a 2 ,
