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CHEM: Chemistry

320-D01
Instrumental Analysis
 
TR 9:55 am - 11:35 am
C. Ewbank-Popescu
OWS 469
EdTrnCore 
02/05 - 05/24
10/4/0
Lecture
CRN 20550
4 Cr.
Size: 10
Enrolled: 4
Waitlisted: 0
02/05 - 05/24
M T W Th F Sa Su
 

9:55 am
11:35 am
OWS 469

  

9:55 am
11:35 am
OWS 469

      

Subject: Chemistry (CHEM)

CRN: 20550

In Person | Lecture

St Paul: Owens Science Hall 469

Requirements Met:
     School of Ed Transfer Course
     Writing in the Discipline

  Codrina Ewbank-Popescu

Principles and techniques of operation of modern chemical instrumentation not covered in CHEM 300. Topics include the capabilities, limitations and data interpretation of advanced optical spectroscopies (luminescence, Raman, etc.), voltammetry, potentiometry, differential scanning calorimetry, thermal gravimetric analysis and mass spectrometry. Fundamentals of signal processing, basic circuitry and optical components are also included. The laboratory consists of both structured exercises and a student designed project and report based on an industrial problem or on an analysis problem of interest to the student. Lecture plus four hours of lab each week. Offered spring semester. Prerequisites: CHEM 202, 300

4 Credits

320-D02
SW: Instrumental Analysis
 
TR 9:55 am - 11:35 am
C. Ewbank-Popescu
OWS 469
EdTrnCore 
02/05 - 05/24
8/7/0
Lecture
CRN 22753
4 Cr.
Size: 8
Enrolled: 7
Waitlisted: 0
02/05 - 05/24
M T W Th F Sa Su
 

9:55 am
11:35 am
OWS 469

  

9:55 am
11:35 am
OWS 469

      

Subject: Chemistry (CHEM)

CRN: 22753

Lecture

St Paul: Owens Science Hall 469

Requirements Met:
     School of Ed Transfer Course
     Signature Work
     Writing in the Discipline

  Codrina Ewbank-Popescu

Principles and techniques of operation of modern chemical instrumentation not covered in CHEM 300. Topics include the capabilities, limitations and data interpretation of advanced optical spectroscopies (luminescence, Raman, etc.), voltammetry, potentiometry, differential scanning calorimetry, thermal gravimetric analysis and mass spectrometry. Fundamentals of signal processing, basic circuitry and optical components are also included. The laboratory consists of both structured exercises and a student designed project and report based on an industrial problem or on an analysis problem of interest to the student. Lecture plus four hours of lab each week. Offered spring semester. Prerequisites: CHEM 202, 300

4 Credits

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