Calculate the velocity and frequency of revolution of the electron of the Bohr hydrogen atom in its ground state.
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- A hydrogen atom is in its second excited state (n = 3). Using the Bohr theory of the atom, calculate the following. (a) the radius of the orbit nm(b) the linear momentum of the electron kg · m/s(c) the angular momentum of the electron J · s(d) the kinetic energy eV(e) the potential energy eV(f) the total energy eV(1) Find the average orbital radius for the electron in the 3p state of hydrogen. Compare your answer with the radius of the Bohr orbit for n=3. (2) What is the probability that this electron is outside the radius given by the Bohr model?Calculate the wavelength of the third line of the Paschen series for hydrogen.
- For a hydrogen atom in its ground state, use the Bohr model to compute the orbital speed of the electron.Find the energy of the photon released in the transition from n₁ = 6 to n₂ = 1 for a hydrogen atom. (Note: Use Rydberg Formula)Compute and compare the electrostatic and gravitational forces in the classical hydrogen atom, assuming a radius 5.3 x 10-11 m.