2.3 Scalar products, direction cosines, and lines in E3 71point-direction equations of lines because they reveal coordinates of
points and scalar components of vectors lying on the lines.
Problems 2.39
1 Write the intrinsic (not depending upon coordinate system) formula for
the scalar product of two vectors u and v and be prepared to rewrite it at any
time.
2 Write the coordinate-dependent formula for the scalar product of the
two vectorsu = ail+b,j+c,k, v = asi+bsj+csk
and be prepared to rewrite it at any time.
3 Use the results of the first two problems to obtain a formula for the cosine
of the angle between the two vectors in Problem 2 and be prepared to repeat the
process at any time.
4 Find the scalar product of the two given vectors and use it to find cos 0,
the cosine of the angle between the vectors:(a) u=2f-3j+ 4k, v = 21 + 3j + 4k 4nr.:cos0=
(b)u=21-3j-4k,v=21+3j+4k .Ins.:cos0=^29
(c) u = 21, + 3j + 4k, v = 21 + 3j + 4k .Ins.: cos 0 = 1
(d) u=21+3j+4k,v= -21-3j-4k Ans.:cos0= -1(e) u = 21 + 3j, v = 31 + 4J Ins.: cos 8 =^18324
x/325=^3255 Determine c so that the two given vectors will be orthogonal (or per-
pendicular).(a) u=21-3j+4k,v=21+3j+ck In$.:c
(b)u=i+j+k, v=i+j+ck 4ns.:c=-26 For each vector v, find the unit vector v, in the direction of v.(a) v=21-3j+4k Ins.:vl=3 i- 3 j+
4
k(b) v = 71 .Ins.: vi = i(c) v=1+j .Ins.:vs=_Li+ j
7 Supposing that v and w are orthonormal vectors and that u = av + bw,
where a and b are not both zero, find the angle between u and w. Hint: Use the
basic formulasu.w - Jul Jw) cos 0, (av +.Ins.: cos 0 - b/ a2 + b'.
8 With the text of this section out of sight, sketch a figure showing points
(0,0,0), Px(xs,yt,zi), and Ps(xs,ys,zs). Starting with the assumption that P(x,y,z)