Under the action of load `F_(1),` the length of a string is `L_(1)` and that under `F_(2),` is `L_(2).` The original length of the wire is

The length of a wire is l_A when the tension in it is T_A and of another wire is l_B when the tension is T_B . The original length of the wire is

Two thin lenses of focal lengths f_(1) and f_(2) are in contact. The focal length of this combination is

The ratio of the lengths of two wires A and B of same material is 1 :2 and the ratio of their diameters is 2:1. They are stretched by the same force, then the ratio of increase in length will be

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?

A string of mass 2.5 kg is under a tension of 200 N The length of the stretched string is 20 m. If the transverse jerk is struck at one end of the string, the disturbance will reach the other end in

A sonometer wire of length l_(1) is in reasonance with a frequency 250 Hz. If the length of wire is increasesed then 2 beats per second are heard. What is ratio of the lengths of the wire ?

A sonometer wire of length L_1 vibrates with a frequency 250 Hz. If the length of wire is in creased then 2 beats per second are heard. What is ration of the lengths of the wire?

A conducting wire has length L_(1) and diameter d_(1) . After stretching the same wire length becomes L_(2) and diameter d_(2) , The ratio of resistances before and after stretching is

A particle moves in the xy-plane under the action of a force F such that the components of its linear momentum p at any time t and p_(x)=2cos t, p_(y)=2sin t. the angle between F and p at time l is

A stone of mass 1kg tied to a light inextensible string of length L=10m is whirling in a circular path of radius L in vertical plane. If the ratio of the maximum tension in the string to the minimum tension in the string is 4 and if g is taken to be 10ms^(-2) , the speed of the stone at the highest point of the circle is.