WELCOME TO CHEMISTRY 3493-Section 1 � Spring 2019
Chemistry Department Choppin Hall
experimental part rooms: Choppin 102/104 /108 / / 257and labs for AFM, X-ray, NMR, EPR, PPS, and UF spectroscopy
Lecture and computer analysis : Choppin room 102
1:30PM - 4:20 PM Monday, 12:30PM - 4:20 PM Wednesday
Dr. Kresimir Rupnik, Ph. D.�� Chemistry Department, 201A Choppin Hall
E-mail: rupnik@intelliom.com��� or chrupn@lsu.edu������
Phone: (225) 578 2945 or 205-1353 (cell)
NOTE: YOU MUST ENTER THE LAB ONLY WITH TA or PROFESSOR AND YOU MUST COMPLY WITH ALL SAFETY RULES AND PROCEDURES
Note: you must have all you lab work in the notebooks and all data ready for inspection at all times
Class material
tentative Syllabus Spring 2018 (some additions could be added in the class)
HANDOUTS H2
in class and on the website
MATHLAB (TBA) � you can use also, need to make your templates
Mathematica tutorial:
http://url.wolfram.com/3khh42I/
PLEASE bring your laptops too the
class- we will work with Mathematica, Gaussian, Gwydeon,
Mercury etc
NEWS and UPDATES:
PLEASE bring your laptops too the class- we will work with Mathematica.
GRADES: A+ 100 � 97, A 96-93, A-� 90-92, B+ 89 � 87, B 86-83, B- 82-80,� C+ 79 � 77,� C 76-73, C- 72-70, D 69 � 60, F below 59
https://sites01.lsu.edu/wp/cxc/writing/ (LSU CI CxC program)
http://sites01.lsu.edu/wp/cxc/science/
RESEARCH OPPORTUNITIES -contact me
|
TBA: lecture/experiment Summary X-ray diffraction (TBA) XRAY diffraction
|
Introduction
and application (2 pages + Mercury figure) |
|
|
Pre-labs for first experiment (first rotations) |
Introduction,
instruments, observables to be measured, models hypothesis , validation , link to other theories and applications |
|
|
TBA: Visualization lecture Please send in Visualization work (Adobe Illustrator etc.) as email attachment |
Physics
of visualization and information processing in physics, AI |
|
|
TBA: Brief Power Point Presentation of ongoing experiment
|
|
|
|
TBA:
lecture/experiment AFM experiment (TBA) |
|
|
This is a CxC course (writing and visualization): see CxC 2011 EVALUATION WRITING TEMPLATE (.doc)
|
Experiment
-rotations experiments + same day experiments for all REGULAR SCHEDLE: combination of 1 rotation (2x) and 1 same day for all (1 or 2x) (may change if special labs/instruments are not available) Groups visual report and discussions follow experiments- these reports are also introductions for the next group work. Based on the results you will suggests novel directions. |
In
progress/group |
Updates |
|
Thermodynamics
- Bomb calorimetry -BE, TD functions |
Electron-bond
energy (2 x) |
1 |
|
Thermodynamics-
Speed of sound - Equipartition of energy in molecular systems |
Energy
partition :Rot Trans Vib (2 x) |
2 |
|
Spectroscopy 1a- Rovibrational HCl , FTIR and (simplefit( ) |
Photonic
transitions (resonant rovibrationa) (2 x) |
3 |
|
Spectroscopy 2 DLS, 1, 2, 3 5 6
-single photon counting BBO entanglement with 400nm downconversion 1, 2, 3 1, 2, 3, |
Photonic
transitions (nonresonant electronic) (2 x) |
4 |
|
Electron transfer Kinetics, Electrochemistry - |
Electronic
transport/reactions- electric field (2 x) |
5 |
|
Kinetics, equilibrium reference paper added - fast
kinetics data fast knetics fall
2014 1
2 3 4 5 6 7 KINETICS
s17� 1 |
|
|
|
Molecular
- atomic, forces & structues |
|
|
|
Absorption- Reactions |
(1x) |
|
|
NMR, Reactions, equilibrium and kinetics /nuclear/proton spin |
Nuclear
spin (1x) |
|
|
EPR / PPS electron spin |
|
|
|
X-ray
diffraction X-ray
diffraction experiment (starting with introduction in lecture room, then X-ral lab 6th floor Choppin) |
Structure
(1x) |
|
|
Mathematica
Computer modeling /Visualization lecture/MC and TD , Molecular Dynamics |
3
x |
|
|
Molecular photonics/ Literature-handouts |
t |
|
oldmaterial
