THREE DIMENSIONAL GEOMETRY - NCERT

1 THREE DIMENSIONAL GEOMETRY463 The moving power of mathematical invention is notreasoning but imagination. IntroductionIn Class XI, while studying Analytical GEOMETRY in twodimensions, and the introduction to THREE dimensionalgeometry, we confined to the Cartesian methods only. Inthe previous chapter of this book, we have studied somebasic concepts of vectors. We will now use vector algebrato THREE DIMENSIONAL GEOMETRY . The purpose of thisapproach to 3- DIMENSIONAL GEOMETRY is that it makes thestudy simple and elegant*.

2 In this chapter, we shall study the direction cosinesand direction ratios of a line joining two points and alsodiscuss about the equations of lines and planes in spaceunder different conditions, angle between two lines, twoplanes, a line and a plane, shortest distance between twoskew lines and distance of a point from a plane. Most ofthe above results are obtained in vector form. Nevertheless, we shall also translatethese results in the Cartesian form which, at times, presents a more clear geometricand analytic picture of the Direction Cosines and Direction Ratios of a LineFrom Chapter 10, recall that if a directed line L passing through the origin makesangles , and with x, y and z-axes, respectively, called direction angles, then cosineof these angles, namely, cos , cos and cos are called direction cosines of thedirected line we reverse the direction of L.

3 Then the direction angles are replaced by their supplements, , , and . Thus, the signs of the direction cosines are DIMENSIONAL GEOMETRY *For various activities in THREE DIMENSIONAL GEOMETRY , one may refer to the Book A Hand Book for designing Mathematics Laboratory in Schools , NCERT , 2005 Leonhard Euler(1707-1783)2019-20 MATHEMATICS464 Note that a given line in space can be extended in two opposite directions and so ithas two sets of direction cosines. In order to have a unique set of direction cosines fora given line in space, we must take the given line as a directed line.

4 These uniquedirection cosines are denoted by l, m and If the given line in space does not pass through the origin, then, in order to findits direction cosines, we draw a line through the origin and parallel to the given take one of the directed lines from the origin and find its direction cosines as twoparallel line have same set of direction THREE numbers which are proportional to the direction cosines of a line arecalled the direction ratios of the line. If l, m, n are direction cosines and a, b, c aredirection ratios of a line, then a = l, b= m and c = n, for any nonzero R.

5 Note Some authors also call direction ratios as direction a, b, c be direction ratios of a line and let l, m and n be the direction cosines( s) of the line. Thenla = mb =nkc= (say), k being a = ak, m =bk, n = (1)Butl2 + m2 + n2 =1 Thereforek2 (a2 + b2 + c2) =1ork =2221abc ++Fig DIMENSIONAL GEOMETRY465 Hence, from (1), the s of the line are222222222,,abclmnabcabcabc= = = ++++++where, depending on the desired sign of k, either a positive or a negative sign is to betaken for l, m and any line, if a, b, c are direction ratios of a line, then ka, kb, kc; k 0 is also aset of direction ratios.

6 So, any two sets of direction ratios of a line are also , for any line there are infinitely many sets of direction Relation between the direction cosines of a lineConsider a line RS with direction cosines l, m, n. Throughthe origin draw a line parallel to the given line and take apoint P(x, y, z) on this line. From P draw a perpendicularPA on the x-axis (Fig. ).Let OP = r. ThenOAcosOP =xr=. This gives x = ,y =mr and z = nrThusx2 + y2 + z2 =r2 (l2 + m2 + n2)Butx2 + y2 + z2 =r2 Hencel2 + m2 + n2 = Direction cosines of a line passing through two pointsSince one and only one line passes through two given points, we can determine thedirection cosines of a line passing through the given points P(x1, y1, z1) and Q(x2, y2, z2)as follows (Fig (a)).

7 Fig (,,)xyzAOaAOPxaaFig MATHEMATICS466 Let l, m, n be the direction cosines of the line PQ and let it makes angles , and with the x, y and z-axis, perpendiculars from P and Q to XY-plane to meet at R and S. Draw aperpendicular from P to QS to meet at N. Now, in right angle triangle PNQ, PQN= (Fig (b).Therefore,cos =21 NQPQPQzz =Similarlycos =2121andcosPQPQ xxyy =Hence, the direction cosines of the line segment joining the points P(x1, y1, z1) andQ(x2, y2, z2) are21 PQxx , 21 PQyy , 21 PQzz wherePQ =()222212121()()xxyyzz + + Note The direction ratios of the line segment joining P(x1, y1, z1) and Q(x2, y2, z2))

8 May be taken asx2 x1, y2 y1, z2 z1 or x1 x2, y1 y2, z1 z2 Example 1 If a line makes angle 90 , 60 and 30 with the positive direction of x, y andz-axis respectively, find its direction Let the 's of the lines be l , m, n. Then l = cos 900 = 0, m = cos 600 = 12,n = cos 300 = 2 If a line has direction ratios 2, 1, 2, determine its direction Direction cosines are222)2()1(22 + +, 222)2()1(21 + + , ()222)2(122 + + or 212,,333 Example 3 Find the direction cosines of the line passing through the two points( 2, 4, 5) and (1, 2, 3).

9 2019-20 THREE DIMENSIONAL GEOMETRY467 Solution We know the direction cosines of the line passing through two pointsP(x1, y1, z1) and Q(x2, y2, z2) are given by212121,,PQPQPQ xxyyzz wherePQ =()212212212)()(zzyyxx + + Here P is ( 2, 4, 5) and Q is (1, 2, 3).SoPQ =222(1(2))(24)(3(5)) + + = 77 Thus, the direction cosines of the line joining two points is328,,777777 Example 4 Find the direction cosines of x, y and The x-axis makes angles 0 , 90 and 90 respectively with x, y and , the direction cosines of x-axis are cos 0 , cos 90 , cos 90 , 1,0, , direction cosines of y-axis and z-axis are 0, 1, 0 and 0, 0, 1 5 Show that the points A (2, 3, 4), B (1, 2, 3) and C (3, 8, 11)

10 Direction ratios of line joining A and B are1 2, 2 3, 3 + 4 , 1, 5, direction ratios of line joining B and C are3 1, 8 + 2, 11 3, , 2, 10, is clear that direction ratios of AB and BC are proportional, hence, AB is parallelto BC. But point B is common to both AB and BC. Therefore, A, B, C arecollinear a line makes angles 90 , 135 , 45 with the x, y and z-axes respectively, find itsdirection the direction cosines of a line which makes equal angles with the a line has the direction ratios 18, 12, 4, then what are its direction cosines ?