A stone of weight 3.0 N is fixed, using glue, to one end P of a rigid rod CP, as shown in

Q#1 (Past Exam Paper – June 2010 Paper 41 Q1)

(a) Define the radian. [2]

(b) A stone of weight 3.0 N is fixed, using glue, to one end P of a rigid rod CP, as shown
in Fig. 1.1.


Fig. 1.1

The rod is rotated about end C so that the stone moves in a vertical circle of radius 85 cm.

The angular speed ω of the rod and stone is gradually increased from zero until the glue
snaps. The glue fixing the stone snaps when the tension in it is 18 N.

For the position of the stone at which the glue snaps,
(i) on the dotted circle of Fig. 1.1, mark with the letter S the position of the stone, [1]

(ii) calculate the angular speed ω of the stone. [4]



Solution:
(a) The radian is the angle (subtended) at the centre of a circle by an arc equal in length to the radius.


(b)
(i)
{The glue causes the stone to stay connected to the rod. So, it exerts a force towards the rod (since the rod is moving in circular motion, this force is always towards the centre.).
The centripetal force is the resultant force of the weight (always downwards) and the force (tension) exerted by the glue on the stone.

At the top, both the weight and the force act towards the centre. So, the centripetal force is largest (as it is due to both the weight and the force (due to W+F)).

Exactly to the right or left of C, the weight does not have any component towards or opposing the force exerted by the glue. So, the centripetal force is due to the forc exerted by the glue only (due to F only.)

For the glue to snap, the force opposing it should be sufficiently large.

(At the bottom,) when the stone is exactly below point C, its weight acts vertically downwards while the force exerted by the glue (to stay connected) is vertically up. The centripetal force is caused by the resultant of these 2 forces (due to F – W). It is in this position that the centripetal is the least and where the stone is most likely to snap.  

In any other position, the weight always acts downwards while the force by the glue is always towards the centre. So, in such positions, only a component of the weight will oppose the force due to the glue. Therefore, the force opposing the glue is maximum when the stone is exactly below C. It is the most likely position that the glue would snap.}

Point S is shown below C      

(ii)
{The centripetal acceleration is caused by the resultant force.

Resultant force = Tension – Weight (= Centripetal force)

Tension = Weight + Centripetal force}

(Maximum) Force (tension) = Weight of stone + Centripetal force

Centripetal force = mrω2

{Centripetal force = Tension – Weight = 18 – 3 = 15 N

W = mg                       

So, mass m = W/g = 3.0 / 9.8

Radius r = 85 cm = 0.85 m}                                                  

15 = (3.0 / 9.8) × 0.85 × ω2

Angular speed ω = 7.6 rad s-1            

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