The maximum velocity of emitted photoelectron | vedclass

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(C) Given: Maximum velocity $v_{max} = 4.8 \ m/s$,specific charge $e/m = 1.76 	imes 10^{11} \ C/kg$.The stopping potential $V_s$ is related to the ma

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$7 	imes 10^{-11} \ V$

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(C) Given: Maximum velocity $v_{max} = 4.8 \ m/s$,specific charge $e/m = 1.76 	imes 10^{11} \ C/kg$.The stopping potential $V_s$ is related to the maximum kinetic energy by the equation: $eV_s = \frac{1}{2}mv_{max}^2$.Rearranging for $V_s$,we get: $V_s = \frac{1}{2} \left(\frac{m}{e}ight) v_{max}^2$.Substituting the values: $V_s = \frac{1}{2} 	imes \left(\frac{1}{1.76 	imes 10^{11}}ight) 	imes (4.8)^2$.$V_s = \frac{23.04}{3.52 	imes 10^{11}} \approx 6.54 	imes 10^{-11} \ V$.Rounding to the nearest significant value provided in the options,we get $V_s \approx 7 	imes 10^{-11} \ V$.

The maximum velocity of emitted photoelectrons is $4.8 \ m/s$. If the $e/m$ ratio of an electron is $1.76 \times 10^{11} \ C/kg$,then the stopping potential is ......

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