Two paricles A and B of equal masses m are t ied with an inextensible string of length 2l. The initial distance between A and B is l. Particle A is given speed v as shown. Find the speed of particie A and B just after the string becomes taut.

Two particles of a mass 2m and m are tied with an inextensible string the particle of mass m is given a speed V as shown in the figure. Find the speed with which the particle of mass 2m starts moving.

Two particles of a mass 2m and m are tied with an inextensible string the particle of mass m is given a speed V as shown in the figure. Find the speed with which the particle of mass 2m starts moving.

Two particles of a mass 2m and m are tied with an inextensible string the particle of mass m is given a speed V as shown in the figure. Find the speed with which the particle of mass 2m starts moving.

A particle of mass m is attached to a vertical rod with two inextensible strings AO and BO of equal lengths l. Distance between A and B is also l. The setup is rotated with angular speed omega with rod as the axis.

Two particles A and B of equal mass m are attached by a string of length 2l and initially placed over a smooth horizontal table in the positoin shown in fig. particle B is projected across the table with speed u perpendicular to AB as shown in the figure. find the velocities of each particle after the string becomes taut and the magnitude of the impulse tension.

Two particles A and B of equal mass m are attached by a string of length 2l and initially placed over a smooth horizontal table in the positoin shown in fig. particle B is projected across the table with speed u perpendicular to AB as shown in the figure. find the velocities of each particle after the string becomes taut and the magnitude of the impulse tension.

Two particles A and B of equal mass m are attached by a string of length 2l and initially placed over a smooth horizontal table in the position shown in fig. particle B is projected across the table with speed u perpendicular to AB as shown in the figure. find the velocities of each particle after the string becomes taut and the magnitude of the impulse tension.

A paricle of mass m is tied to a light string of length L and moving in a horizontal circle of radius r with speed v as shown. The forces acting on the particle are

A particle of mass m is attached to a vertical rod with two inextensible strings AO and BO of equal lengths l. Distance between A and B is also l. The setup is rotated with angular speed omega with rod as the axis. (a) Find the values of omega for which the particle remains at point B. (b) Find the range of values of omega for which tension (T_(1)) in the string AO is greater than mg but the other string remains slack (c) Find the value of omega for which tension (T_(1)) in string AO is twice the tension (T_(2)) in string BO (d) Assume that both strings are taut when the string AO breaks. What will be nature of path of the particle moment after AO breaks ?

Two blocks A and B of masses 2m & m are corrected by a massless and inextensible string, The magnitudes of acceleration of A and B immediately after the string is cut are ……………….