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Quantum Theory, Periodicity and Experimental Techniques (Mass Spec/PES/Spectrophotometry)

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Presentation on theme: "Quantum Theory, Periodicity and Experimental Techniques (Mass Spec/PES/Spectrophotometry)"— Presentation transcript:

1 Quantum Theory, Periodicity and Experimental Techniques (Mass Spec/PES/Spectrophotometry)

2 What to study: * Main scientists who contributed to the atomic model (name of experiment) * Quantum numbers (formula and what each quantum number means) * Formulas: (see what is provided in the formula sheet) -- calculating wavelength when energy level changes (R= -2.178 X 10 -18 J ) --calculating energy from wavelength/frequency/c *Electromagnetic spectrum (relative order including visible light/ relationship of λ and frequency) *Rules for orbital diagram and electron configuration (including exceptions)

3 Vocab *Orbitals*Photon *Isoelectronic*Ionization *Paramagnetic *Electronegativity *Diamagnetic*Electron Affinity *Electron Configuration*Valence e *Noble Gas Config.*Metalloids *Quantum #’s*Hunds Rule *Z effective*Pauli Exclusion *Heisenberg Uncertainty*Aufbau Principle Principle

4 Molarity (M) = moles solute Liter solution

5 M 1 V 1 = M 2 V 2

6 Concentration – Moles/L (M) Dilution – M 1 V 1 = M 2 V 2 Ex. Create a solution with 10 moles of NaCl in 2 L water. This is your initial solution. Dilute this solution by taking 1L, transfer to a beaker and then add 1L of water. This makes your diluted to have a total new volume of 2 L (1:2 dilution) Initial Concentration: 10moles/2L = 5 M 1:2 Dilution: (5M) (1L) = M 2 (2L) M 2 = 2.5 M

7 Mini Lab: Determine the concentration of food dye using a spectrophotometer Materials: spec-20, test tubes, cuvets, DI water, Kimwipes, pipets, graduated cylinders Procedure: The group will be assigned either solution A, B or C. They have to determine proper dilution so the absorbance result will be within the range of the standard graph. The target wavelength is 630 nm.

8 Absorbance vs. Transmittance

9 Standard Graph Absorbance Concentration (mol/L)

10 Pre-Lab: Concentration of Food Dye Goal: To determine unknown concentration of food dye based on known concentration from a standard calibration curve A.Standard 1.7 X 10 -4 M B. ?

11 Mass Spectrometry

12

13 Photoelectron Spectroscopy

14

15 12345678 H1312 He23725250 Li520729711810 Be89917571484521000 B800242636592502032820 C10862352461962213782047260 N140228554576747394425325064340 O131433885296746710987133207132084070 F168033756045840811020151601786092010 Ne20803963613093611218015240 Na49645636913954113350166002011325666 Mg737145077311054513627179952170025662 Ionization Energies in kJ/mol

16 LAB: Photoelectron Spectroscopy *Make sure to include: Title/ Purpose/ Materials/Questions Conclusion: *Discuss what information we can get from a PES graph. *Discuss ionization energy of electrons relative to their distance from the nucleus. *Discuss any limitations of the PES graph.

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