A conical pendulum has length of 1.1 m and the angle subtended by the string with the vertical is `25^(@)31`. Find (i) the angular speed (ii)the frequency of circular motion of the bob.

A conical pendulum has length 100 cm and the angle made by the string with the vertical is 10^@ . The mass of the bob is 200 g, find frequency of circular motion of the bob.

A conical pendulum has length 100 cm and the angle made by the string with the vertical is 10^@ .The mass of the bob is 200 g, find The centripetal force on the bob

Fig. show a conical pendulum. If the length of the pendulum is l , mass of die bob is m and theta is the angle made by the string with the vertical show that the angular momentum of the pendulum about the point of support is: L = sqrt((m^(2)gl^(3) sin^(4)theta)/(cos theta))

Consider a conical pendulum having bob is mass m is suspended from a ceiling through a string of length L. The bob moves in a horizontal circle of radius r. Find (a) the angular speed of the bob and (b) the tension in the string.

Consider a conical pendulum having bob is mass m is suspended from a ceiling through a string of length L. The bob moves in a horizontal circle of radius r. Find (a) the angular speed of the bob and (b) the tension in the string.

For a conical pendulum of string length L, its angular speed is proportional to

The length of the string of a conical pendulam is 10 m and it has a bob of mass 50 g. The angle that the string makes with the vertical is 30^@ . If the bob covers one revolution is 3 s, then the corresponding centripetal force acting on the bob will be

The length of the string of a conical pendulam is 10 m and it has a bob of mass 50 g. The angle that the string makes with the vertical is 30^@ . If the bob covers one revolution is 3 s, then the corresponding centripetal force acting on the bob will be

A pendulum bob of mass m and length L is released from angle theta with the vertical. Find (a) the speed of the bob at the bottom of the swing and (b) tension in the string at that time