If the frequency of incident light on a certain metal is `8.2xx10^(14)Hz`, having threshold frequency `3.3xx10^(14)Hz`, then cut off potential is :

If the threshold frequency be 2 xx 10^14 Hz , the work function is

When the frequency of the incident light on a photo sensitive metal is changed from 7.6 xx 10^(14) Hz to 6 xx 10^(14) Hz the value of stopping potential changes by 0.66 V. Calculate Planck's constant. [Note : Any form of Einstein's P.E. Equation can be considered]

The threshold frequency for a certain metal is 3.3 xx 10^(14) Hz . If light of frequency 8.2 xx 10^(14) Hz is incident on the metal, predict the cutoff voltage for the photoelectric emission.

The threshold frequency of potassium is 3 xx 10^14 Hz . The work function is

The kinetic energy of the electron emitted when light of frequency 3.5xx10^(15)Hz is made to strike on a metal surface havng threshold frequency 1.5xx10^(15)Hz is (h=6.6xx10^(-34)Js)

A photon of energy 8 eV is incident on a metal surface of threshold frequency 1.6 xx 10^15 Hz . The K.E. of the photoelectrons emitted (in eV) is (Take h = 6 xx 10^-34 J - s )

A photon of energy 10 eV is incident on a metal surface of threshold frequency 1.6 xx 10^15 Hz . The kinetic energy of the photoelectron (in eV) is (assume h = 6 x 10^-34 )

A photon of energy 8 eV is incident on a metal surface of threshold frequency 1.6 xx 10^15 Hz . The K.E. of the photoelectrons emitted is (in eV). Take h as 6 xx 10^-34 J s .