For a simple pendulum,having time period T,th | vedclass

Name: Exam Paper Generator | JEE NEET Paper Generator | Vedclass
Brand: Vedclass
Rating: 5 (35 reviews)

Question

(D) The kinetic energy $(K.E)$ of a simple pendulum is given by $K.E = \frac{1}{2} m v^2$.The velocity $v$ of a simple pendulum performing simple harm

Vedclass · Accepted Answer

Vedclass · Answer

(D) The kinetic energy $(K.E)$ of a simple pendulum is given by $K.E = \frac{1}{2} m v^2$.The velocity $v$ of a simple pendulum performing simple harmonic motion $(SHM)$ is $v = A\omega \cos(\omega t + \phi)$.Thus,$K.E = \frac{1}{2} m A^2 \omega^2 \cos^2(\omega t + \phi)$.Since $K.E \propto \cos^2(\omega t)$,the graph is a periodic function with a frequency double that of the pendulum's motion,meaning it completes two cycles in the time the pendulum completes one cycle $(T)$.At the mean position $(t=0)$,the velocity is maximum,so kinetic energy is maximum. The graph that shows maximum kinetic energy at $t=0$ and completes two cycles in time $T$ is Graph $D$.

For a simple pendulum,having time period $T$,the variation of kinetic energy $(K.E)$ with time $(t)$ is represented by:

Similar Questions

$A$ particle of mass $m$ performs $SHM$ along a straight line with frequency $f$ and amplitude $A.$

Starting from the mean position,a body oscillates simple harmonically with a period $T$. After what time will its kinetic energy be $75 \%$ of the total energy? $(\sin 30^{\circ} = 0.5)$

$A$ body is performing $S.H.M.$ of amplitude $A$. The displacement of the body from a point where kinetic energy is maximum to a point where potential energy is maximum,is

In $S.H.M.$,the displacement of a particle at an instant is $Y = A \cos 30^{\circ}$,where $A = 40 \ cm$ and kinetic energy is $200 \ J$. If the force constant is $1 \times 10^{x} \ N/m$,then $x$ will be $(\cos 30^{\circ} = \sqrt{3}/2)$.

Vedclass Test Series

Exam Paper Generator

Online Exam Module