364403 A horizontal rod of mass \(m\) and length \(L\) is pivoted at one end. The rod's other end is supported by a spring of force constant \(k\). The rod is displaced by a small angle \(\theta\) from its horizontal equilibrium position and released. The angular frequency of the subsequent simple harmonic motion is

364404 Assertion :
The spring constant of a spring is \(k\). When it is divided into \(n\) equal parts, then spring constant of one piece is \(k{\rm{/}}n.\)
Reason :
The spring constant depends on material used for the spring.

364405 Two bodies \(A\) and \(B\) of equal mass are suspended from two separate massles springs of force constant \(k_{1}\) and \(k_{2}\) respectively. The bodies oscillate vertically such that their maximum velocities are equal. The ratio of the amplitudes of body \(A\) to that of body \(B\) is

364406 A block \(A\) of mass \(m\) is connected to spring and performs simple harmonic motion with a time period of \(2 s\). Another block \(B\) of mass \(m\) rests on \(A\). The coefficient of static friction betwwen \(A\) and \(B\) is \(\mu_{s}=0.6\). The maximum amplitude of oscillation which the system can have so that there is no relative motion between \(A\) and \(B\) is (take \(\pi^{2}=g=10\) )

364403 A horizontal rod of mass \(m\) and length \(L\) is pivoted at one end. The rod's other end is supported by a spring of force constant \(k\). The rod is displaced by a small angle \(\theta\) from its horizontal equilibrium position and released. The angular frequency of the subsequent simple harmonic motion is

364404 Assertion :
The spring constant of a spring is \(k\). When it is divided into \(n\) equal parts, then spring constant of one piece is \(k{\rm{/}}n.\)
Reason :
The spring constant depends on material used for the spring.

364405 Two bodies \(A\) and \(B\) of equal mass are suspended from two separate massles springs of force constant \(k_{1}\) and \(k_{2}\) respectively. The bodies oscillate vertically such that their maximum velocities are equal. The ratio of the amplitudes of body \(A\) to that of body \(B\) is

364406 A block \(A\) of mass \(m\) is connected to spring and performs simple harmonic motion with a time period of \(2 s\). Another block \(B\) of mass \(m\) rests on \(A\). The coefficient of static friction betwwen \(A\) and \(B\) is \(\mu_{s}=0.6\). The maximum amplitude of oscillation which the system can have so that there is no relative motion between \(A\) and \(B\) is (take \(\pi^{2}=g=10\) )

364403 A horizontal rod of mass \(m\) and length \(L\) is pivoted at one end. The rod's other end is supported by a spring of force constant \(k\). The rod is displaced by a small angle \(\theta\) from its horizontal equilibrium position and released. The angular frequency of the subsequent simple harmonic motion is

364404 Assertion :
The spring constant of a spring is \(k\). When it is divided into \(n\) equal parts, then spring constant of one piece is \(k{\rm{/}}n.\)
Reason :
The spring constant depends on material used for the spring.

364405 Two bodies \(A\) and \(B\) of equal mass are suspended from two separate massles springs of force constant \(k_{1}\) and \(k_{2}\) respectively. The bodies oscillate vertically such that their maximum velocities are equal. The ratio of the amplitudes of body \(A\) to that of body \(B\) is

364406 A block \(A\) of mass \(m\) is connected to spring and performs simple harmonic motion with a time period of \(2 s\). Another block \(B\) of mass \(m\) rests on \(A\). The coefficient of static friction betwwen \(A\) and \(B\) is \(\mu_{s}=0.6\). The maximum amplitude of oscillation which the system can have so that there is no relative motion between \(A\) and \(B\) is (take \(\pi^{2}=g=10\) )

364403 A horizontal rod of mass \(m\) and length \(L\) is pivoted at one end. The rod's other end is supported by a spring of force constant \(k\). The rod is displaced by a small angle \(\theta\) from its horizontal equilibrium position and released. The angular frequency of the subsequent simple harmonic motion is

364404 Assertion :
The spring constant of a spring is \(k\). When it is divided into \(n\) equal parts, then spring constant of one piece is \(k{\rm{/}}n.\)
Reason :
The spring constant depends on material used for the spring.

364405 Two bodies \(A\) and \(B\) of equal mass are suspended from two separate massles springs of force constant \(k_{1}\) and \(k_{2}\) respectively. The bodies oscillate vertically such that their maximum velocities are equal. The ratio of the amplitudes of body \(A\) to that of body \(B\) is

364406 A block \(A\) of mass \(m\) is connected to spring and performs simple harmonic motion with a time period of \(2 s\). Another block \(B\) of mass \(m\) rests on \(A\). The coefficient of static friction betwwen \(A\) and \(B\) is \(\mu_{s}=0.6\). The maximum amplitude of oscillation which the system can have so that there is no relative motion between \(A\) and \(B\) is (take \(\pi^{2}=g=10\) )