20.309:Schedule: Difference between revisions

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       <p><b>Friday, Sep. 8, 3:00PM<br>
       <p><b>Friday, Sep. 8, 3:00PM (TENTATIVE)</b><br>
         </b>Lab orientation and tour, safety, introduction to electronics</p>
         Lab orientation and tour, safety, introduction to electronics</p>
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         filters </p>
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       <p><b>Monday, Sep. 11 11:00AM</b><br>
       <p><b>Monday, Sep. 11 11:00AM (TENTATIVE)</b><br>
         Lab orientation and tour, safety, introduction to electronics</p>
         Lab orientation and tour, safety, introduction to electronics</p>
       <p> <b>Monday , Sep. 11 - Friday Sep. 15</b><br>
       <p> <b>Monday , Sep. 11 - Friday Sep. 15</b><br>

Revision as of 05:58, 5 September 2006

20.309: Biological Instrumentation and Measurement

Home        Course Information        Schedule        People        Student Presentations        LAB SIGNUP       

WEEK LECTURES LAB
 
Electronics
0

Thursday, Sep. 7
Course Overview, procedures, syllabus, scheduling

Friday, Sep. 8, 3:00PM (TENTATIVE)
Lab orientation and tour, safety, introduction to electronics
1

Tuesday, Sep. 12
Electronics for DNA analysis; dividers, Thevenin's theorem, impedance and loading, RC circuits

Thursday, Sep. 14
RC circuits: transfer functions, Laplace transforms, impedance, RC filters

Monday, Sep. 11 11:00AM (TENTATIVE)
Lab orientation and tour, safety, introduction to electronics

Monday , Sep. 11 - Friday Sep. 15
Intro to DC measurements, dividers, impedance, photodiode i-v curves, AC measurements, transfer functions;
the Wheatstone bridge for temperature measurement

2

Tuesday, Sep. 19
DNA analysis: SNP detection, chemical equilib. - K and deltaG; description of DNA melting lab apparatus

Lecture To Be Scheduled
Feedback: Black's formula, the loop;
op-amps: "golden rules" and circuit examples

Monday, Sep. 18 - Friday Sep. 22
Build optics for DNA melting experiment, build photodiode readout circuit; calibrate fluorescence signal

3

Tuesday, Sep. 26
Fourier series, integrals, Fourier transform (continuous/discrete)

Thursday, Sep. 28
Fourier analysis (cont'd)

NO LAB MONDAY SEP. 25
(Student holiday)

Tuesday, Sep. 26 - Friday, Sep. 29
Complete DNA melting curves apparatus; test perfect-match, all-mismatch, and single-base mismatch DNA strands

 
Mechanics
4

Tuesday, Oct. 3
Scanning probe microscopy

Thursday, Oct. 5
Signals, noise, Power Spectral Density

Monday, Oct. 2 - Friday, Oct. 6
AFM alignment and calibration, AFM imaging I
5

NO LECTURE TUESDAY, OCT. 10
(Columbus Day)

Thursday, Oct. 12
Correlation/convolution, lock-in amplification, linear systems

NO LAB MON-TUE
(Columbus Day Weekend)

Wednesday, Oct. 11 - Friday, Oct. 13
AFM imaging II; force spectroscopy

6

Tuesday, Oct. 17
Equipartition theorem and thermal fluctuations

Thursday, Oct. 19
Student Presentations (Group #2)

Monday, Oct. 16 - Friday Oct. 20
Thermal fluctuations of microcantilevers: Boltzmann's constant experiment
 
Optics
7

Tuesday, Oct. 24
Physical optics and optical instrumentation: detectors, noise

Thursday, Oct. 26
Optical instrumentation: sources, lasers

Monday, Oct. 23 - Friday, Oct. 27
Optoelectronics: PMT, & photon counting; digital lock-in detection of DNA fluorescence

8

Tuesday, Oct. 31
Image processing I

Thursday, Nov. 2
Image processing II

Monday, Oct. 30 - Friday, Nov. 3
Image processing

9

Tuesday, Nov. 7
Intro to microscopy: geometric optics, lenses, ray tracing

Thursday, Nov. 9
Fluorescence spectroscopy

Monday, Nov. 6 - Friday, Nov. 10
Fluorescence microscope construction I: lenses, white light imaging

10

Tuesday, Nov. 14
interference and diffraction, phase-contrast miscroscopy

Thursday, Nov. 16
Resolution in microscopy; Fourier optics

Monday, Nov. 13 - Friday, Nov. 17
Fluorescence microscope construction II, fluorescence imaging, live-cell imaging & microrheology

11

Tuesday, Nov. 21
interference and diffraction, phase-contrast miscroscopy

NO LECTURE THURSDAY, NOV. 23
(Thanksgiving)

Monday, Nov. 20 - Wednesday, Nov. 24
Light-scattering microscope and Fourier optics

NO LAB THU-FRI
(Thanksgiving Weekend)

12

Tuesday, Nov. 28
Optical trapping

Thursday, Nov. 30
3D microscopy

Monday, Nov. 27 - Friday, Dec. 1
Optical trapping

 
13

Tuesday, Dec. 5
3D image processing

Thursday, Dec. 7

Monday, Dec. 4 - Friday, Dec. 8
3D Imaging & Visualization; confocal & two-photon microscopy, ImageJ

14 Tuesday, Dec. 12
Student presentations (Group #5) 		 
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