A uniform rod, [AB], of length 2 m and weight 40 N is smoothly hinged at end A to a vertical wall - Leaving Cert Applied Maths - Question 7 - 2010

Resolving forces horizontally: $X = T \cos 30°$

Resolving forces vertically: $Y + T \sin 30° = 40$

Taking moments about point A: $T(2) = 40 \times (1)$

This simplifies to: $T(2) = 40 \sin 30°$

From the moment equation: $T(2) = 40 \sin 30°$ Substituting the value of \sin 30° = 0.5: $T(2) = 40 \times 0.5\Rightarrow T = 10 \text{ N}$

Using the equations from horizontal and vertical resolutions:

1. Substituting for T: $X = T \cos 30° = 10 \cos 30° = 5 \sqrt{3}$
2. From the vertical equation: $Y + 10 \sin 30° = 40 \Rightarrow Y + 10 \times 0.5 = 40 \Rightarrow Y = 35$

Finally, the magnitude of the reaction at hinge A: $R = \sqrt{(5 \sqrt{3})^2 + 35^2}$ Calculating: $R = \sqrt{(75) + (1225)} = \sqrt{1300} \approx 36.1 \text{ N}$