the frequency of a note emitted by a silver wire of length 25 cm is 256 when the tension is 10 kg.Calculate the radius of the wire (Density of silver `=10.5xx10^(3)kgm^(-3)`)

The frequency of the note emitted by a silver wire 1 mm in diameter and 50 cm in length is 256 Hz.Find the tension in the wire, if density of silver is 10.5 g cm^(-3) .

The frequency of the note produced by a sonometer wire will be increased by 10%, if the tension is increased by

The frequency of the note produced by a sonometer wire will be decreased by 10%, if the tension is increased by

Find the fundamental note emitted by a string of length 10sqrt(10) cm under tension of 3.14 kg. Radius of string is 0.55 mm and density =9.8gcm^(-3) .

The length of a metal wire is 10cm when the tension in it is 20N and 12cm when the tension is 40N . Then natural length of the wire is in cm

Calculate the drift velocity for the electrons in a silver wire which has a radius of 0.1 cm and carries a current of 2 A. Atomic mass of silver=108 and density of silver =10.5xx10^(3) kg//m^(3) .

Relative density of silver is 10.8. The density of water is 10^3(kg)/(m^3 . What is the density of silver in SI.

A solid silver sphere of radius 1 cm is charged to a potential of 10 KV. Calculate the fraction eta of the aloms ionized assuming that one atom contributes only one free electron. Density of silver =10.5xx10^(3)kg m^(-3) and its atomic weight is 107.9 (Avogadro's number =6xx10^(26)kg mol^(-1) and charge of an electron =1.6xx10^(-19) C.