respectively of the particle at x = +x m
The potential energy function for a particle executing linear SHM is given by V(x)= 2/1 kx^2 where k is the force constant of the oscillator. For k=0.5 Nm^−1, the graph of V(x) versus x is shown in the figure. A particle of total energy E turns back when it reaches x=±x m . If V and K indicate the potential energy and kinetic energy, respectively of the particle at x = +x m, then which of the following is correct?
09
Nov
The potential energy function for a particle executing linear SHM is given by V(x)= 2/1 kx^2 where k is the force constant of the oscillator. For k=0.5 Nm^−1, the graph of V(x) versus x is shown in the figure. A particle of total energy E turns back when it reaches x=±x m . [...]
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respectively of the particle at x = +x m ,
the graph of V(x) versus x is shown in the figure. A particle of total energy E turns back when it reaches x=±x m . If V and K indicate the potential energy and kinetic energy ,
The potential energy function for a particle executing linear SHM is given by V(x)= 2/1 kx^2 where k is the force constant of the oscillator. For k=0.5 Nm^−1 ,
then which of the following is correct? ,