A heavy particle is tied ot the end A of a string of length `1.6m`. Its other end `O` is fixed. It revolves as a conical pendulum with the string making `60^(@)` with the vertical. Then `(g=10m//s^(2))`

A heavy particle is tied to the end A of a string of length 1.6 m. its other end O is fixed. It revolves as a conical pendulum with the string making 60^(C) with the vertical then (g=10(m)/(s^(2)))

A heavy particle is tied to the end A of a string of length 1.6 m. Its other end O is fixed. It revolves as a conical pendulum with the string making 60^(@) with the vertical. Then (take g = 9.8 m//s )

A heavy particle is tied to the end A of a string of the length 1.6 m. Its other end O is fixed. It revolves as a conical pendulum with the string making 60^(@) with the horizontal. Then,

A heavy particle is tied to the end A of a string of the length 1.6 m. Its other end O is fixed. It revolves as a conical pendulum with the string making 60^(@) with the horizontal. Then,

A heavy particle is attached to one end of a string 1m long whose other end is fixed at O. It is projected from it lowest position horizontally with a velocity V:

A body of mass m hangs at one end of a string of length l , the other end of which is fixed. It is given a horizontal velocity so that the string would just reach where it makes an angle of 60^(@) with the vertical. The tension in the string at mean position is

A body of mass m hangs at one end of a string of length l , the other end of which is fixed. It is given a horizontal velocity so that the string would just reach where it makes an angle of 60^(@) with the vertical. The tension in the string at mean position is

A body of mass 100 gram is tied at the end of a string of length 1m. It is rotated in a vertical circle at a critical speed of 4 m/s at the highest point . The tension in the string at the huighest point in its path is [ take g=10 m//s^(2) ]

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 small brass bob is revolving in a horizontal circle with a constant speed of 2 ms^(-1) at the end of a string of length 1 m. Find the time required for one revolution of the body. What angle does the string make with the vertical ?