How Do the Electron Orbitals of H and He+ Differ?

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The electron orbitals of H and He+ differ primarily due to the increased nuclear charge in He+, which has two protons compared to one in hydrogen. This greater positive charge leads to a stronger electrostatic attraction between the nucleus and the electron, resulting in lower energy levels for He+. Both atoms have their electrons in a 1s orbital, which is spherical, but the energy levels are not the same. The energy levels can be calculated using the formula for hydrogen-like atoms, which accounts for the nuclear charge. Thus, while the shape of the orbitals is similar, the energy levels are significantly different due to the additional proton in He+.
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Homework Statement


Both H and He+ atoms contain a nucleus and a single electron. Therefore He+ is often referred to as Hydrogen-like. According to the Bohr Model, the electron in He+ should orbit the nucleus in discrete orbits, much like the electron in the Hydrogen atom orbits its nucleus. How will the electron's orbital of He+ differ from the elctron's orbits of a H atom?


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The Attempt at a Solution

I don't see how their orbits will be different because they are both found within a 1s orbital which are spherical. Would they have different levels of energy? If so how could you go about figuring this?
 
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I'm not sure about calculating energy levels, but if you consider the amount of protons in a He+ atom versus a H atom, there are twice as many. This extra positive charge should cause a greater attraction inward on the proton. I think this change will also change the energy levels but can't help you with the calculations.
 
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