Assuming that the frequency `nu` of a vibrating string may depend upon (i) applied load (F) (ii) length (l) and (iii) mass per unit length (m) of the string prove that
`nu=(1)/(l)sqrt((F)/(m))`

The frequency ( nu ) of transverse wave on a string may depend upon (i) length L of string (ii) tension T in the string and (iii) mass per unit length m of the string Derive the formula for frequency with the help of dimensions.

If force (F) Length (L) and time (T) have the basic units what would be the dimension of mass ?

Discuss, in which of the cases given below, the pitch of the fundamental tone emitted from a taut string may increase : (i) when length of the string in increased (ii) when length of the string is decreased (iii) when tension in the string is increased (iv) when tension in the string is decreased

Two particles, each of mass m and carrying a charge q, are suspended from a point by insulated strings each of length 1 cm. In equilibrium each string makes an angle of 45^(@) with the horizontal direction. Prove that, q=sqrt(2mg) , g = acceleration due to gravity.

Consider a simple pendulum having a bob attached to a string that oscillates under the action of the force of gravity. Suppose that the period of oscillation of the simple pendulum depends on its length (l) , mass of the bob (m) and acceleration due to gravity (g). Derive the expression for its time period using the method of dimensions.