A pendulum is held at an angle of 30° as shown in figure 1 and then released. The length from the top of the string to the centre of the spherical pendulum is 0.25 m. Calculate the maximum velocity of the pendulum: (i) using equations for simple harmonic motion. (ii) using the principle of conservation of energy. 60g 30° 30°

A pendulum is held at an angle of 30° as shown in figure 1 and then released. The length from the top of the string to the centre of the spherical pendulum is 0.25 m. Calculate the maximum velocity of the pendulum: (i) using equations for simple harmonic motion. (ii) using the principle of conservation of energy. 60g 30° 30°

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A pendulum is held at an angle of 30° as shown in
figure 1 and then released. The length from the top
of the string to the centre of the spherical
pendulum is 0.25 m.
Calculate the maximum velocity of the pendulum:
(i) using equations for simple harmonic motion.
(ii) using the principle of conservation of energy.
60g
30° 30°

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