1. Complete the table below: Give the maximumm number of electrons in an atom that can have each set of quantum numbers. Then specify the orbital(s) in which the electrons with these quantum numbers would be Tound. If a set of quantum numbers is not allowed, write not allowed in the spaces. Justify your answers. Quantum Numbers Maximum Electrons Orbital(s) (include n values) n= 2, 1 = 1, m = 0 n= 3, 1=2 n = 4, m =-1

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1. Complete the table below: Give the maximum number of electrons in an atom that can have each set of quantum numbers. Then specify the orbital(s) in which the electrons with these quantum numbers would be Tound. If a set of quantum numbers is not allowed, write not allowed in the spaces. Justify your answers. Quantum Numbers Maximum Electrons Orbital(s) (include n values) n = 2, 1 = 1, m = 0 n= 3, 1=2 n = 4, m = -1 2. Give one set of allowed quantum numbers to correctly describe an electron in a 3d orbital. Compare with your group, did you all come up with the same answers? Can there be more than one answer here? Why or why not? Explain. n = 1 = = lu 3. As a group discuss how electrons are filled in energy-level diagrams using the following rules: Aufbau Principle, Pauli Exclusion Principle, and Hund's. Then fill in the energy level diagram here for the ground state electrons in a neutral arsenic (As) atom. 4. Now take your diagram and translate it into an electron configuration for arsenic. 4d 4p-- 3d 4.s 3p-- 3s | 5. Now write three new diagrams (each group member can choose one) for arsenic that each violate one of 2p- 2s- Tunlain why your Energy