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19 Nov 2019
Complete the following table:
43) Bohr's version of the Rydberg Equation can be used to calculate the absorption and emission energies of hydrogen like atoms. This equation can also be used to calculate the energy required to move the last electron in any given atom infinitely far away from the nucleus. Complete the following table: a. Using the Bohr's equation to calculate the transition energies from n-5 to n 2 for H, He+ b. Calculate the frequency and wavelength (nm) as well as indicating the type of electromagnetic radiation Type of Absorption/ Energy Wavelength Electromagnetic Emission Radiation Het c. Calculate the ground state ionization energies for H, He d. Using your understanding of the quantum mechanical model and the energy of electrons within the atom, explain the observed differences between the properties of an in electron in H and He+
Complete the following table:
43) Bohr's version of the Rydberg Equation can be used to calculate the absorption and emission energies of hydrogen like atoms. This equation can also be used to calculate the energy required to move the last electron in any given atom infinitely far away from the nucleus. Complete the following table: a. Using the Bohr's equation to calculate the transition energies from n-5 to n 2 for H, He+ b. Calculate the frequency and wavelength (nm) as well as indicating the type of electromagnetic radiation Type of Absorption/ Energy Wavelength Electromagnetic Emission Radiation Het c. Calculate the ground state ionization energies for H, He d. Using your understanding of the quantum mechanical model and the energy of electrons within the atom, explain the observed differences between the properties of an in electron in H and He+
Beverley SmithLv2
18 Jul 2019