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Orbitals and Quantum Numbers
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Electron Orbitals Describes the distribution of electron density in space 4 types: s, p, d, f
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Three Rules for Filling Orbitals
Enter lowest energy level first (Aufbau Principle) No more than two electrons per orbital (Pauli Exclusion Principle) – must have opposite spins Maximize unpaired electrons (Hund’s Rule) So what does it look like? #16 on WS - Draw an orbital diagram for chlorine: 1s 2s 2p 3s 3p 4s 3d
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Show me what you know! Draw the orbital diagram for the electrons in calcium. Don’t forget to label the orbitals!
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FIRST NUMBER Principle Quantum Number (n)
Relates to the size and energy of orbital lower n: closer to the nucleus (on average), lower in energy
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SECOND NUMBER Angular Momentum Quantum Number (l)
Defines the shape of an orbital s sub-shell: l = 0 p sub-shell: l = 1 d sub-shell: l = 2 f sub-shell: l = 3
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THIRD NUMBER Magnetic Quantum Number (ml)
ml = - l to +l Relates to the orientation of the orbital in space
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FOURTH NUMBER Electron Spin Quantum Number (ms)
ms = +1/2 or - 1/2 Indexes spin direction of an e- within an orbital
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Quantum Numbers Summary
Written as: n, l, ml , ms Example – brown WS #2: Fill in the orbital notation, then write the four quantum numbers which describe the location of the highest energy (last) electron of the following elements: 2. Ni
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Another Example Written as: n, l, ml , ms Example – brown WS #7:
Give the four quantum numbers which describe the location of each of the following: 7. The 4th electron in carbon
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Show me what you know! Draw the orbital diagram for the electrons in titanium AND write the quantum numbers for the last electron in titanium.
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