A string of length 0.5 m carries a bob of mass 0.1 kg at its end. If this is to be used as a concial pendulum of period ` 0.4 pi s ` s, calculate the angle of inclination of the string with the vertical and the tension in the string .

A string of length 0.5 m carries a bob at its end. If this is to be used as a conical pendulum of period 0.4pis . Calculate the angle of inclination of the string with the vertical.

A string of length 1m is fixed at one end and carries a mass of 1 kg at the other end. The string makes 2//pi revolutions per second around a vertical axis passing through the fixed end. Calculate (i) angle of inclination of the string with the vertical, (ii) the tension in the strong and (iii) the linear velocity of the mass.

A string length 1m is fixed at one end with a bob of mass 100g and the string makes ((2)/(pi))revs^(-1) around a vertical axis through a fixed point. The angle of inclination of the string with nvertical is

A string of length 1 m is fixed at one end and carries a mass of 100 gm at the other end. The string makes 2//pi revolutions per second about a vertical axis through the fixed end. The angle of inclination of the string with the vertical, and the linear velocity of the mass will respec- tively be - (in M.K.S. system)

In a conical pendulum arrangement, a string of length 1 m is fixed at one end with a bob of mass 100 g and the string makes 2 π r v s − 1 around a vertical axis through a fixed point. The angle of inclination of the string with vertical is: (Take g = 10 m s − 1 )

In a conical pendulum arrangement, a string of length 1 m is fixed at one end with a bob of mass 100 g and the string makes (2)/(pi) mvs^(-1) around a vertical axis through a fixed point. The angle of inclination of the string with vertical is: (Take g = 10 ms^(-1) )

In a conical pendulum arrangement, a string of length 1 m is fixed at one end with a bob of mass 100 g and the string makes (2)/(pi) mvs^(-1) around a vertical axis through a fixed point. The angle of inclination of the string with vertical is: (Take g = 10 ms^(-1) )

A simple pendulum is constructed by attaching a bob of mass m to a string of length L fixed at its upper end. The bob oscillates in a vertical circle. It is found that the speed of the bob is v when the string makes an angle theta with the vertical. Find the tension in the string at this instant.

A simple pendulum is constructed by attaching a bob of mass m to a string of length L fixed at its upper end. The bob oscillates in a vertical circle. It is found that the speed of the bob is v when the string makes an angle theta with the vertical. Find the tension in the string at this instant.