In spring-block system match the following

In a spring-block system, match the following:

Comparing L-C oscillation with the oscillation if spring-block-system, match the following table. Comparing L-C oscillations with the oscillations of spring-block sytem, match the following table {:(,,underset(("LC oscillations"))"Table-1",,underset(("Spring-block oscillations"))"Table-2"),(,(A),L,(P),k),(,(B),C,(Q),m),(,(C),i,(R),v),(,(D),(di)/(dt),(S),x),(,,,(T),"None"):}

Assertion : In spring block system if length of spring and mass of block both are halved, then angular frequency of oscillations will remain unchanged. Reason : Angular frequency is given by omega = sqrt((k)/(m)) .

Assertion : In spring block system if length of spring and mass of block both are halved, then angular frequency of oscillations will remain unchanged. Reason : Angular frequency is given by omega = sqrt((k)/(m)) .

Passage VII There is a spring block system in a lift moving upwards with acceleration a=g/2 In mean position (of block's oscillations) spring is

A constant force F is applied on a spring block system as shown in figure. The mass of the block is m and spring constant is k. The block is placed over a smooth surface. Initially the spring was unstretched. Choose the correct alternative(s)

A: If a spring block system, oscillating in a vertical plane is made to oscillate on a horizontal surface, the time period will remain same. R: The time period of spring block system does not depend on g.

While comparing the L-C oscillations with the oscillations of spring-block system, with whom the magnetic energy can be compared and why?

Consider the spring blcok system shoen in the figure initially block m is in equlibrium. An impulse gives the block a velocity v upwards. Find the maximum speed of the block during the motion.

Find the period of a vertical spring - block system by both methods.