CHAPTER 17. TRIGONOMETRY 17.5
Exercise 17 - 11
- Show that
sinAˆ
a
=
sinBˆ
b=
sinCˆ
c
is equivalent to:
a
sinAˆ=
b
sinBˆ=
c
sinCˆ
Note: either of these two forms can be used.- Find all the unknownsides and angles of the following triangles:
(a)�P QR in whichQˆ = 64◦;Rˆ = 24◦and r = 3
(b)�KLM in whichKˆ = 43◦;Mˆ = 50◦and m = 1
(c)�ABC in whichAˆ = 32, 7 ◦;Cˆ = 70, 5 ◦and a = 52, 3
(d)�XY Z in whichXˆ = 56◦;Zˆ = 40◦and x = 50- In�ABC,Aˆ = 116◦;Cˆ = 32◦and AC = 23 m. Find the length of the side AB.
- In�RST,Rˆ = 19◦;Sˆ = 30◦and RT = 120 km. Find the length of the side ST.
- In�KMS,Kˆ = 20◦;Mˆ = 100◦and s = 23 cm. Find the length of the side m.
More practice video solutions or help at http://www.everythingmaths.co.za(1.) 014v (2.) 014w (3.) 014x (4.) 014y (5.) 014zThe Cosine Rule EMBDO
DEFINITION: The Cosine Rule
The cosine rule appliesto any triangle and states that:a^2 = b^2 + c^2 − 2 bccosAˆ
b^2 = c^2 + a^2 − 2 cacosBˆ
c^2 = a^2 + b^2 − 2 abcosCˆwhere a is the side oppositeAˆ, b is the side oppositeBˆ and c is the side oppositeCˆ.The cosine rule relates the length of a side of atriangle to the angle opposite it and the lengths of the
other two sides.
Consider�ABC which we will use to show that:
a^2 = b^2 + c^2 − 2 bccosA.ˆ