Two light verticle springs `1` and `2` of stiffness `K` and `2K` are connected by a `1` light horizontal rod. `A` bead of chewing gum of mass `'m'` is placed gently at the mid point of the rod and lowered slowly.
The period of `SHM` of the bead is

Two light verticle springs 1 and 2 of stiffness K and 2K are connected by a 1 light horizontal rod. A bead of chewing gum of mass 'm' is placed gently at the mid point of the rod and lowered slowly. The energy of oscillation of the bead for an amplitude y_(0) is equal to ( x_(0)= maximum displacement of the bead in the process of lowering)

two light identical springs of spring constant K are attached horizontally at the two ends of a uniform horizontal rod AB of length l and mass m. the rod is pivoted at its centre 'o' and can rotate freely in horizontal plane . The other ends of the two springs are fixed to rigid supportss as shown in figure . the rod is gently pushed through a small angle and released , the frequency of resulting oscillation is :

Two spring of force constants K and 2K are connected a mass m below The frequency of oscillation the mass is

A plank of mass M is placed on a smooth hroizonal surface. Two light identical springs each of stiffness k are rigidly connected to structs at the ends of the plank as shown. When the spring are in their unextended position the distance between their free ends is 3l . a block of mass m is placed on the plank and pressed aganist one of the springs so that it is compressed by l . To keep the blocks at rest it is connected to the strut by means of a light string, initially the syetem is at rest. Now the string is burnt. Time period of oscillation of block:

A massless Rod AB is hinged at point A. At point P, it is connected by a spring of stiffness K_(1) and at point B it is connected to another spring of stiffness K_(2) connected to mass m as shown in figure the length of Rod AB is l and displaced by a distance x from its mean position as shown in figure then the time period of S.H.M. of mass is

Two spring of spring constants k_(1) and k_(2) ar joined and are connected to a mass m as shown in the figure. Calculate the frequency of oscillation of mass m.

A square hinged -structure (ABCD) is formed with four massless rods which lie on the smooth horizontal table. The hinge -D of structure is fixed with table and hinge A , hinge -B and hinge- C are free to move on the table. A point mass m is attached at hinge -B , and an ideal spring of stiffness k is connected between hinge -A and hinge- C as shown in the figure. System is in equilibrium. The mass m is slightly along line BD and released to perform SHM. The time period of SHM is pisqrt((nm)/k) . Find

Two blocks A and B of mass m and 2m respectively are connected by a light spring of force constant k. They are placed on a smooth horizontal surface. Spring is stretched by a length x and then released. Find the relative velocity of the blocks when the spring comes to its natural length