In the given figure tension at the mid-point of string `-2`. If mass of string`-1` is `6 kg` and mass of string`-2` is `4 kg`.

For the given figure the acceleration of 1 kg block if string is massless and mass of pulley is 2 kg and diameter of pulley is 0.2 m :-

String-1 is connected with string-2 The mass per unit length in string-1 is mu _1 and mass per unit length in string-2 is 4mu _1. The tension in the strings is T .A travelling wave is coming from the left .What fraction of the energy in the incident wave goes into string-2?

In the given figure mass of string AB is 2kg . Find tension at A,B and C , where C is the mid point of string.

A string of length 0.4 m and mass 10^(-2) kg is clamped at its ends. The tension in the string is 1.6 N. When a pulse travels along the string the shape of the string is found to be the same at times t and t+trianglet . The value trianglet is

Calculate the acceleration of the masses 12 kg shown in the set up of fig. Also calculate the tension in the string connecting the 12 kg mass. The string are weightless and inextensible, the pulleys are weightless and frictionless.

Calculate the acceleration of the masses 12 kg shown in the set up of fig. Also calculate the tension in the string connecting the 12 kg mass. The string are weightless and inextensible, the pulleys are weightless and frictionless

Find tension in string if theta = 30^(@) and the mass hanged in middle of the string is equal to 22 kg.

The block shown in figure has a mass M and descends with an acceleration a. the mass of the string below the point A is m. Find the tension of the string at the point A and at the lower end.

A string of mass 0.250 kg is under a tension of 2 N. The length of the stretched string is 2 m. A transverse wave disturbance starts at one end of the string . How long will the disturbance take to reach the other end ?

In the arrangement shown in figure , find the retio of tension in the strings attached with 4kg block and the with 1kg block