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*[http://www.media.mit.edu/nanoscale/courses/BE309/private/hw/hw3.pdf Problem Set 3 and Answers] | *[http://www.media.mit.edu/nanoscale/courses/BE309/private/hw/hw3.pdf Problem Set 3 and Answers] | ||
*[http://www.media.mit.edu/nanoscale/courses/BE309/private/hw/hw4.pdf Problem Set 4 and Answers] | *[http://www.media.mit.edu/nanoscale/courses/BE309/private/hw/hw4.pdf Problem Set 4 and Answers] | ||
*[http://www.openwetware.org/images/c/c4/Addend_pset_5.pdf Pset 5 addendum] | |||
==Quizes== | ==Quizes== |
Revision as of 21:03, 17 October 2008
Problem Sets
- Packet of Problem Sets: 20.309 course packet
- Problem Set 1 and Answers
- Problem Set 2 and Answers
- Problem Set 3 and Answers
- Problem Set 4 and Answers
- Pset 5 addendum
Quizes
Labs
Module 1
- DNA Melting Lab
- Lab 1 Report Requirements
- DNA Melting Data Analysis Advice
- Analyzing Data (filtering)
- Lab Comments Scroll to end
- DNA Melting Lab Simulation
- SYBR Green I
- PPG102A1 RTD
- Typical Amplifier Schematic Diagram & Datasheet
- DNA Sequence Information: QA Data zip file
- Calculate thermodynamic values: DinaMelt or OligoCalc
Module 2
Lectures
Lecture 1 9.5.08 F Voltage dividers and electrical impedance
Lecture 2 9.9.08 T RC Circuits
Lecture 3 9.11.08 R Filters
Lecture 4 9.12.08 F Thermodynamics of DNA melting
Lecture 5 9.16.08 T
Lecture 6 9.18.08 R Op-amp applications
Lecture 8 9.23.08 T Intro to Fourier Analysis
Lecture 10 9.26.08 F Sampling and Discrete Analysis
Lecture 11 9.30.08 T Convolution
Lecture 12 10.2.08 R Application of Convolution Theorem
Lecture 13 10.3.08 F Lab 1 Requirements and Lab 2 Intro
Lecture 15 10.9.08 R Ultimate Limits of Force and Position Detection