TRIGONOMETRIC IDENTITIES AND EQUATIONS 169B
Problem 7. Solve 1 .5 tanx− 1. 8 = 0 for
0 ◦≤x≤ 360 ◦.1 .5 tanx− 1. 8 =0, from which
tanx=
1. 8
1. 5= 1 .2000.Hencex=tan−^1 1.2000.
Tangent is positive in the first and third quadrants
(see Fig. 16.4) The acute angle tan−^11. 2000 =
50 ◦ 12 ′. Hence,
x= 50 ◦ 12 ′or 180◦+ 50 ◦ 12 ′= 230 ◦ 12 ′Figure 16.4
Problem 8. Solve 4 sect=5 for values oft
between 0◦and 360◦.4 sect=5, from which sect=^54 = 1 .2500.
Hencet=sec−^1 1.2500.
Secant=(1/cosine) is positive in the first and
fourth quadrants (see Fig. 16.5) The acute angle
sec−^11. 2500 = 36 ◦ 52 ′. Hence,
t= 36 ◦ 52 ′or 360◦− 36 ◦ 52 ′= 323 ◦ 8 ′Figure 16.5Now try the following exercise.Exercise 74 Further problems on trigono-
metric equationsIn Problems 1 to 3 solve the equations for angles
between 0◦and 360◦.- 4−7 sinθ=0[θ= 34 ◦ 51 ′or 145◦ 9 ′]
- 3 cosecA+ 5. 5 = 0
[A= 213 ◦ 3 ′or 326◦ 57 ′] - 4(2. 32 − 5 .4 cott)= 0
[t= 66 ◦ 45 ′or 246◦ 45 ′]
16.5 Worked problems (ii) on
trigonometric equationsProblem 9. Solve 2−4 cos^2 A=0 for values
ofAin the range 0◦<A< 360 ◦.2 −4 cos^2 A=0, from which cos^2 A=^24 = 0. 5000
Hence cosA=√
(0.5000)=± 0 .7071 and
A=cos−^1 (± 0 .7071).
Cosine is positive in quadrants one and four and
negative in quadrants two and three. Thus in this
case there are four solutions, one in each quadrant
(see Fig. 16.6). The acute angle cos−^10. 7071 = 45 ◦.
Hence,A= 45 ◦, 135 ◦, 225 ◦or 315◦Problem 10. Solve 21 cot^2 y= 1 .3 for
0 ◦<y< 360 ◦.