This question was on resolution of coplanar forces and candidates' performance was reportedly poor. However, candidates performed better in part (a) than in part (b). Teachers were encouraged not to relent in their effort to teach this topic and WAEC was encouraged to set questions repeatedly from this section of the syllabus so as to encourage both teachers and candidates to prepare adequately for the examination.
In part (a), candidates were expected to resolve the forces both horizontally and vertically. Resolving horizontally, we have 40Cos 30° + 15√3 = 20√3 + 15√3 = 35√3. Resolving vertically, we have 40Sin30° - 20 = O. Therefore,magnitude of resultant force =√(35√3)² +0² = 35√3N. Since the force had its vertical component = 0,
it implies that the required force will act in a direction opposite the horizontal component = 270°, i.e required force =( 35√3, 270°) .
In part (b), Forces F₁ , F₂ and F₃ could be represented diagrammatically as

 Horizontal component of Resultant force = 10 - 20Cos60° - 4Cos60° = -2. Vertical component of Resultant force = 4Sin60° - 20Sin60° = -13.8564. Resultant force, R =√(_2)² + (-13.8564)² = 14.0N. The direction of the resultant
force = 270° - tan–¹ [-13.8564) ²= 188.2°.