As the interaction between the nucleus and the electron determines the structure of the energy levels of the H atom, any quantum object that has a positively and a negatively charged particle with no other interactions should have a similar structure of energy levels. Consider a very unusual 'H atom', where the positevely charged particle is a positron (the antimatter particle of the electron, same mass as the electron, but opposite charge). Calculate the first two energy levels for this unusual atom in eV. What wavelength (in nm) for a transition between these two energy levels?
Atomic Structure
The basic structure of an atom is defined as the component-level of atomic structure of an atom. Precisely speaking an atom consists of three major subatomic particles which are protons, neutrons, and electrons. Many theories have been stated for explaining the structure of an atom.
Shape of the D Orbital
Shapes of orbitals are an approximate representation of boundaries in space for finding electrons occupied in that respective orbital. D orbitals are known to have a clover leaf shape or dumbbell inside where electrons can be found.
As the interaction between the nucleus and the electron determines the structure of the energy levels of the H atom, any quantum object that has a positively and a negatively charged particle with no other interactions should have a similar structure of energy levels. Consider a very unusual 'H atom', where the positevely charged particle is a positron (the antimatter particle of the electron, same mass as the electron, but opposite charge). Calculate the first two energy levels for this unusual atom in eV. What wavelength (in nm) for a transition between these two energy levels?
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images