# It takes 208.4 kj of energy to remove

Answer · Answer: Energy: 3.46×10?¹? J Wavelength: 574.0 nm · Explanation: For the Avogadros’ number, we know that 1 mol of electron has 6.02×10²³. It takes 208.4 kJ of energy to remove 1 mole of electrons from an atom on the surface of rubidium metal. What is the maximum wavelength (in. It takes 208.4 kJ of energy to remove 1 mole of electrons from the atoms on the surface of rubidium metal. If rubidium metal is irradiated with 254-nm light. It takes 208.4 kJ of energy to remove 1 mole of electrons from 1 mole of atoms on the surface of rubidium metal. How much energy does it take to remove a. It takes 208.4 kJ of energy to remove 1 mole of electrons from 1 mole of atoms on the surface of rubidium metal. How much energy does it take to remove a.

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## what is the maximum wavelength of light capable of doing this?

Calculate the maximum wavelength of light capable of removing an electron for a hydrogen atom from the energy state characterized by N=1 By. b) What is the maximum wavelength of light capable of doing this?. Calculate the longest and shortest wavelengths of light emitted by. Learn how to calculate the maximum wavelength capable of ionization, speed of light in vaccum?2.998×109m/s?= frequency of photon?= wavelength of photon. What is the maximum wavelength of light capable of removing an electron from a hydrogen atom in the energy states characterized by n=1 and n=3?.. remove a single electron from an atom on the surface of solid iron? Energy What is the maximum wavelength of light capable of doing this? Wavelength nm.