Question

A simple pendulum of length L has mass m and it oscillates freely with amplitude A. At the extreme position, its potential energy is (g = acceleration due to gravity)

विकल्प

• `"mgA"/"L"`

• `"mgA"/2"L"`

• `"mgA"^2/"L"`

• `"mgA"^2/"2L"`

Answer 1

`"mgA"^2/"2L"`

Explanation:

At extreme position, the potential energy of simple pendulum,

`"PE"=1/2"mA"^2omega`    ...(i)

where, ω = angular frequency = `(2pi)/"T"`

For simple pendulum, T = `2pisqrt("L"/"g"`

∴ `omega=(2pi)/(2pi)sqrt"g"/"L"=sqrt"g"/"L"`    ...`[because"T"=(2pi)/omega]`

On putting value of ω in Eq. (i), we get

`"PE"=1/2"mM"^2(sqrt("g"/"L"))^2`

`="mgA"^2/(2"L")`