Answer to Question #94042 in Quantum Mechanics for JT

"h" - Plank constant

"\\nu" - frequency of photon

"\\lambda" - wave lenght of photon

"c" - speed of light

"A" - work function of the material

"m_e" - mass of electron

"V_m" - the maximum velocity of electrons ejected from a material

"\\dfrac{c}{\\nu}=\\lambda \\Rightarrow \\nu=\\dfrac{c}{\\lambda}"

Energy of photon "h\\nu=\\dfrac{hc}{\\lambda}" (according to hypothesis of Plank)

According to energy Einstein formula

"h\\nu=\\dfrac{m_eV_m^2}{2}+A \\Rightarrow \\dfrac{hc}{\\lambda} = \\dfrac{m_eV_m^2}{2}+A"

"\\dfrac{hc}{\\lambda} -A= \\dfrac{m_eV_m^2}{2}"

"\\dfrac{2hc}{\\lambda} -2A= m_eV_m^2"

"\\dfrac{2hc}{\\lambda} -\\dfrac{2A\\lambda}{\\lambda}= m_eV_m^2"

"\\dfrac{2hc-2A\\lambda}{\\lambda} = m_eV_m^2"

"\\dfrac{2(hc-A\\lambda)}{\\lambda} = m_eV_m^2"

"\\dfrac{2(hc-A\\lambda)}{\\lambda m_e} = V_m^2"

"V_m=\\sqrt{\\dfrac{2(hc-A\\lambda)}{\\lambda m_e}}\\approx2.25*10^6 \\dfrac{m}{s}"

Answer: "2.25*10^6 \\dfrac{m}{s}"