What is the longest wavelength that can ionise hrdrogen atom in its ground state?
Answers
Assuming that the hydrogen atom is in the ground state ie principal quantum number n = 1, the wavelength of a photon required to excite an electron in that state up to an energy level with quantum number m is given by the Rydberg equation
1/λ = R.(1/n² - 1/m²)
where R is the Rydberg constant, 1.0974 x 10^7 m^(-1). As m increases, the electron orbits at a greater distance from the nucleus until it effectively becomes detached and the hydrogen atom is ionised into a free electron and the hydrogen nucleus, a proton. At this point the term 1/m² is negligible, so that the corresponding wavelength λe is
1/λe = R or λe = 9.113 x 10^(-8) m = 91.1 nm
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Answer to What is the longest wavelength photon that can ionize a Hydrogen atom in its ground state? (A) 247nm (B) 163nm (C) 91.2n ...
