When radiation is incident on a photoelectron emitter , the stopping potential is found to be `9 volts` . If `e//m` for the electrons is `1.8 xx 10^(11) C kg^(-1)` the maximum velocity of the ejected electrons is

When radiation is incident on a photoelectron emitter, the potential is found to be 9V. If e//m for the electron is 1.8cc10^(11)C//kg , the maximum velocity of the ejected electron is

An electron is accelerated through a potential difference of 200 volts. If e//m for the electron be 1.6 xx 10^(11) coulomb/kg, the velocity acquired by the electron will be

An electron is accelerated through a potential difference of 200 volts. If e//m for the electron be 1.6 xx 10^(11) coulomb/kg, the velocity acquired by the electron will be

Radiation is incident on a photosensitive surface and the stopping potential is found to be 9 V. What is the maximum velocity of the ejected photo electrons if the specific charge of the electron is 1.8xx10^(11) C/kg ?

if e/m of electron is 1.76xx10^(11)C(kg)^(-1) andn stopping potential is 0.71 V, then the maximum velocity of the photoelectron is

The stopping potential of a photoelectric diode is 9 volts. e//m = 1.8 xx 10^(11) C kg^(-1) , then what is its velocity ?

If e/m of electron is 1.76xx10^(11)Ckg^(-11) and the stopping potential is 0.71 V, then the maximum velocity of the photoelectron is

Radiation of frequency v=9v_(0) is incident on a metal surface, having threshold frequency v_(0) . The maximum velocity of the ejected photoelectrons is 6xx10^(6)m//s . What will be the maximum velocity of the ejected photoelectrons , if v is reduced to 3v_(0) ?

For a monochromatic radiation incident on a metal surface, the stopping potential is 2.0V. Find out the maximum velocity of the emitted photoelectrons.