20.309: Difference between revisions
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{|border="1px" width="100%" | {|border="1px" width="100%" | ||
|-align="center" | |-align="center" bgcolor="#EEEEEE" | ||
!colspan=2|Lecture & | !colspan=2|Lecture & Recitation | ||
|-align="left" | |-align="left" | ||
!Tuesday|| | !bgcolor="#EEEEEE"|Tuesday||bgcolor="#DDEEDD"| | ||
*Correlation/convolution | *Correlation/convolution | ||
*Lock-in amplification & demo | *Lock-in amplification & demo | ||
*Linear systems | *Linear systems | ||
|-align="left" | |-align="left" | ||
!Thursday|| | !bgcolor="#EEEEEE"|Thursday||bgcolor="#DDEEDD"| | ||
*Equipartition theorem and thermal fluctuations | *Equipartition theorem and thermal fluctuations | ||
|-align="left" | |-align="left" | ||
!Friday|| | !bgcolor="#EEEEEE"|Friday||bgcolor="#DDEEDD"| | ||
*Introduction to AFM lab module | *Introduction to AFM lab module | ||
|-align="center" | |-align="center" | ||
!colspan="2"|Readings | !colspan="2" bgcolor="#EEEEEE"|Readings | ||
|- | |- | ||
|colspan="2"| | |colspan="2" bgcolor="#DDEEDD"| | ||
*One-page handout: [[Media:convclar.pdf| convolution clarification examples]] | *One-page handout: [[Media:convclar.pdf| convolution clarification examples]] | ||
*[http://www.dsptutor.freeuk.com/analyser/guidance.html#leakage Spectral leakage] | *[http://www.dsptutor.freeuk.com/analyser/guidance.html#leakage Spectral leakage] | ||
*[[20.309:Presentations#Oct_12:_Scanning_probe_microscopy_I|Papers]] for presentation 10/12 | *[[20.309:Presentations#Oct_12:_Scanning_probe_microscopy_I|Papers]] for presentation 10/12 | ||
|-align="center" | |-align="center" | ||
!colspan="2"|Homework | !colspan="2" bgcolor="#EEEEEE"|Homework | ||
|- | |- | ||
|-align="left" | |-align="left" | ||
|colspan="2"|*None assigned | |colspan="2" bgcolor="#DDEEDD"|*None assigned | ||
|-align="center" | |-align="center" | ||
!colspan="2"|Lab | !colspan="2" bgcolor="#EEEEEE"|Lab | ||
|- | |- | ||
|colspan="2"|*Complete DNA melting experiment | |colspan="2" bgcolor="#DDEEDD"|*Complete DNA melting experiment | ||
|} | |} | ||
Revision as of 07:55, 1 October 2007
DNA Melting Lab Report is due 10/10 |
Announcements
October 1, 2007:
- Friday's recitation (10/5) will be an introduction to the AFM lab
- The AFM Lab will begin on 10/10
September 25, 2007:
- There will be no quiz during period of 9/25 - 10/5.
- The next quiz will cover concepts for lectures and specifics of the AFM labs.
September 25, 2007:
- The last day the lab will be open to work on DNA melting is Friday October 5th.
- DNA Melting lab report will be due on Wednesday Oct. 10th (NOTE: DUE DATE CORRECTION).
- You can work with the same partner on modules 0 and 1. (You must work with a different partner for modules 2, 3, and 4.)
This Week (10/1-10/5)
Lecture & Recitation | |
---|---|
Tuesday |
|
Thursday |
|
Friday |
|
Readings | |
| |
Homework | |
*None assigned | |
Lab | |
*Complete DNA melting experiment |
Next week (10/8-10/12)
Lecture & recitation
Tuesday
- No lecture (holiday)
Thursday
- Scanning probe microscopy
- Critical band audio files)
Friday
- Scanning probe microscopy student presentations
Readings
- Atomic force microscopy lab manual
Lab
- DNA Melting lab report due
- AFM alignment and calibration
- AFM imaging I
Homework
- Homework #2
Week 3(9/25-9/28)
Lecture & recitation
Tuesday
- Fourier analysis (cont'd)
Thu, Sep. 27
- Signals, noise, Power Spectral Density
Friday
Readings
- Fourier Transforms.
- FFT reference material
- Tutorial 1: Overview of Fourier Transforms
- Tutorial 2: Sampling and Aliasing
- Papers for presentations on Friday.
Homework
Homework Set #1 (due 9/25)
Lab
- Lab manual for DNA Melting (weeks 2-4, due 10/12)
- DNA thermodynamics: SantaLucia, PNAS 1998.
Week 2 (9/17-9/21)
Lecture & recitation
Tuesday
- Feedback
- Black's formula
- op-amps: "golden rules" and circuit examples
Thursday
- Fourier series & integrals
- Fourier transform (continuous & discrete)
Friday
- Review of ideal elements and circuit modeling
- Modeling a battery with the ideal elements
- Real vs. ideal op-amps
- Ugly op-amp example
Readings
- Primary: Art of Electronics (Hayes and Horowitz)
- Supplemental: MIT 6.002 notes
- Matlab Tutorial file 1 (the basics)
- Matlab Tutorial file 2 (curve fitting, etc...)
Homework
Homework Set #1 (due 9/25)
Lab
Lab manual for DNA Melting (weeks 2-4, due 10/12)
Week 1 (9/10-9/14)
Readings
RC Circuits
Primary: Art of Electronics (Hayes and Horowitz)
Supplemental: MIT 6.002 notes
This brief introduction to diodes will be helpful for working on the labs this week.
Homework
Homework Set #1 (due 9/21)
Lab
Lab manual for Introduction to Electronics
Week 0 (9/6-9/7)
Readings
DC Circuits
Primary: Art of Electronics (Hayes and Horowitz)
Supplemental: MIT 6.002 notes