Mathematics • Year 10 • Unit 3 • Lesson 16

The Cosine Rule — Skill Drill

Build fluency with the cosine rule from Lesson 16. Find the third side from SAS using c² = a² + b² − 2ab cos C, and find an angle from SSS using cos C = (a² + b² − c²) / (2ab). Identify when the rule is needed instead of the sine rule.

Build · I Do / We Do / You Do

1. I do — fully worked example

Read every step. Each one has a short reason on the right so you can see why, not just what.

Problem. In △ABC, a = 7 cm, b = 9 cm, and ∠C = 60°. Find side c.

Step 1 — Identify the setup.

Two sides (a, b) + included angle (C) → SAS → cosine rule

Reason: the unknown side c is opposite the known angle C, which sits between the two known sides.

Step 2 — Write the cosine rule.

c² = a² + b² − 2ab cos C

Step 3 — Substitute and calculate.

c² = 7² + 9² − 2(7)(9) cos 60°

c² = 49 + 81 − 126 × 0.5

c² = 130 − 63 = 67

Reason: cos 60° is an exact value (½), so no rounding at this step.

Step 4 — Take the square root and check.

c = √67 ≈ 8.2 cm

Check: C = 60° < 90°, so c should be less than √(7² + 9²) = √130 ≈ 11.4 cm. 8.2 < 11.4 ✓

Answer: c ≈ 8.2 cm.

Stuck? Revisit lesson § "Finding a Side (SAS)" — the angle in the cosine rule must be between the two known sides.

2. We do — fill in the missing steps

Same structure as Section 1, but with the working faded. Fill in each blank. 5 marks

Problem. In △ABC, a = 5 cm, b = 7 cm, c = 8 cm. Find ∠A (the angle opposite a).

Step 1 — Identify the setup: three sides known (______), so use the cosine rule for an angle.

Step 2 — Write the angle form (with A opposite a):

cos A = (______ + ______ − ______) / (2 × ______ × ______)

Step 3 — Substitute side lengths:

cos A = (49 + 64 − 25) / (2 × 7 × 8) = ______ / ______

Step 4 — Simplify the fraction and use inverse cosine:

cos A = ______ ≈ ______ , so A = cos⁻¹(______) ≈ ______°

Step 5 — Sanity check. Since cos A > 0, angle A must be (acute / obtuse): ______. Also, a = 5 is the shortest side, so it faces the (smallest / largest) angle: ______. ✓

Stuck? Revisit lesson § "Finding an Angle (SSS)" — the side opposite the angle you want goes on top with a minus sign.

3. You do — independent practice

Show your working in the space under each problem. Round to 1 decimal place unless told otherwise. The first four are foundation. The middle two are standard. The last two are extension.

Foundation — substitute and solve

3.1 In △ABC, a = 8, b = 10, ∠C = 45°. Find side c. 2 marks

3.2 In △ABC, a = 6, b = 9, ∠C = 90°. Find c using the cosine rule, then check with Pythagoras. 2 marks

3.3 In △ABC, a = 6, b = 8, c = 10. Find ∠B using cos B = (a² + c² − b²) / (2ac). 2 marks

3.4 A triangle has sides 5, 6, 7. Find the largest angle (it is opposite the longest side, 7). 2 marks

Standard — pick the right form

3.5 In △ABC, a = 9, b = 11, ∠C = 50°. Find side c. (Use cos 50° ≈ 0.643.) 2 marks

3.6 A triangle has sides 8, 10, 14. Decide whether the angle opposite 14 is acute, right or obtuse. Justify with one cosine-rule calculation. 3 marks

Extension — push your thinking

3.7 In △ABC, a = 7, b = 5, ∠C = 120°. Find c. (Use cos 120° = −½ exactly.) Why is the answer bigger than √(a² + b²)? 3 marks

3.8 In △ABC, a = 7, b = 9, c = 11. Find all three angles and verify they sum to 180°. 3 marks

Stuck on 3.8? Use the cosine rule twice (for A and B), then C = 180° − A − B.

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Section 2 — We do (5-7-8 triangle, find ∠A)

SSS → cosine rule.
cos A = (b² + c² − a²) / (2bc) = (49 + 64 − 25) / (2 × 7 × 8) = 88 / 112.
cos A ≈ 0.7857 , so A = cos⁻¹(0.7857) ≈ 38.2°.
cos A > 0 → A is acute. Side a = 5 is shortest → faces the smallest angle. ✓

3.1 — a = 8, b = 10, C = 45°

c² = 8² + 10² − 2(8)(10) cos 45° = 64 + 100 − 160 × 0.7071 = 164 − 113.1 = 50.9.
c = √50.9 ≈ 7.1.

3.2 — a = 6, b = 9, C = 90°

c² = 36 + 81 − 2(6)(9) cos 90° = 117 − 108 × 0 = 117. c = √117 ≈ 10.8.
Pythagoras check: 6² + 9² = 36 + 81 = 117. c = √117 ≈ 10.8. ✓ (Cosine rule reduces to Pythagoras when C = 90°.)

3.3 — sides 6, 8, 10; find ∠B (opposite 8)

cos B = (a² + c² − b²) / (2ac) = (36 + 100 − 64) / (2 × 6 × 10) = 72 / 120 = 0.6.
B = cos⁻¹(0.6) ≈ 53.1°. (6-8-10 is a scaled 3-4-5 right triangle; ∠C = 90°.)

3.4 — sides 5, 6, 7; largest angle (opposite 7)

cos C = (5² + 6² − 7²) / (2 × 5 × 6) = (25 + 36 − 49) / 60 = 12/60 = 0.2.
C = cos⁻¹(0.2) ≈ 78.5°. Acute (cos > 0).

3.5 — a = 9, b = 11, C = 50°

c² = 81 + 121 − 2(9)(11) × 0.643 = 202 − 127.3 = 74.7.
c = √74.7 ≈ 8.6.

3.6 — sides 8, 10, 14; angle opposite 14

cos C = (8² + 10² − 14²) / (2 × 8 × 10) = (64 + 100 − 196) / 160 = −32/160 = −0.2.
cos C is negative → the angle is obtuse. (C ≈ 101.5°.)

3.7 — a = 7, b = 5, C = 120°

c² = 49 + 25 − 2(7)(5) × (−½) = 74 − (−35) = 74 + 35 = 109.
c = √109 ≈ 10.4. This is bigger than √(49 + 25) = √74 ≈ 8.6 because cos 120° is negative, so the −2ab cos C term adds instead of subtracting. Obtuse angles always make the opposite side longer than Pythagoras predicts.

3.8 — sides 7, 9, 11; all three angles

cos A = (81 + 121 − 49) / (2 × 9 × 11) = 153/198 ≈ 0.773 → A ≈ 39.4°.
cos B = (49 + 121 − 81) / (2 × 7 × 11) = 89/154 ≈ 0.578 → B ≈ 54.7°.
C = 180° − 39.4° − 54.7° = 85.9°. Sum check: 39.4 + 54.7 + 85.9 = 180.0 ✓