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{{Template:20.309}}
 
{{Template:20.309}}
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__NOTOC__
 
Bioinstrumentation scholars: you are welcome to edit and improve this course wiki. Correct, helpful, exquisitely-expressed changes will increase your class participation grade. Alterations not meeting those critera may have the opposite effect.
 
Bioinstrumentation scholars: you are welcome to edit and improve this course wiki. Correct, helpful, exquisitely-expressed changes will increase your class participation grade. Alterations not meeting those critera may have the opposite effect.
  
 
If you would like to contribute to this site, please [[Special:RequestAccount|request an account]].
 
If you would like to contribute to this site, please [[Special:RequestAccount|request an account]].
  
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== 20.309 course information==
  
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* [[20.309:Course Information| 20.309 course information]]
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* [[20.309:Safety| lab safety]]
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* Reserve a lab station here: [http://measurebiology.org/reservations/Web/schedule.php Bioinstrumentation Lab reservation system]
  
<div style="padding: 10px; width: 740px; border: 5px solid #000FFF;">
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== 20.309 master schedule==
 
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== 20.309 This week and next==
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<div style="padding: 10px; width: 740px; border: 5px solid #000FFF;">
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===Module 1: Optics & Microscopy===
 
{| border=1px
 
{| border=1px
|style="width: 15%;"|'''Week'''
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|style="width: 10%;"|'''Important dates'''  
|style="width: 15%;"|'''Summary'''
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|style="width: 15%;"|'''Assignment due'''
|style="width: 18%;"|'''Assignments due'''
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|style="width: 30%;"|'''Assignment page links'''
|style="width: 17%;"|'''Lab Manual'''
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|style="width: 45%;"|'''Useful resources'''
|style="width: 35%;"|'''Resources'''
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|--  
|--
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| <font color=#04B45F>2/16/18</font color>
| Week 9: Apr. 2 - 8
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| Assignment 1
| Get started with circuits in the electronics bootcamp and with PSet3
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|  
 
|  
| [[Electronics Mini-Lab|Electronics bootcamp]]
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[[Assignment 1 Overview: Transillumination microscopy| Assignment 1 Overview]]
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* [[Assignment 1, Part 1: Pre-lab questions|Part 1: Pre-lab questions]]
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* [[Assignment 1, Part 2: Optics bootcamp|Part 2: Optics bootcamp]]
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* [[Assignment 1, Part 3: Building your transillumination microscope|Part 3: Build a microscope]]
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* [[Assignment 1, Part 4: Building your transilluminated microscope|Part 4: Measure stuff]]
 
|  
 
|  
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* [https://stellar.mit.edu/S/course/20/fa13/20.309/materials.html Lectures 1 through 9 of the 20.309 class]
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* From [http://www.microscopyu.com Nikon MicroscopyU]
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** [http://www.microscopyu.com/articles/formulas/formulasconjugate.html Conjugate planes in optical microscopy] (includes transmitted and reflected (epi) illumination)
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** [http://www.microscopyu.com/articles/formulas/formulasri.html Snell's law]
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** [http://www.microscopyu.com/articles/formulas/formulasresolution.html Resolution]
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*  [[Understanding log plots]]
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|-
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| <font color=#04B45F>2/25/18</font color>
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| Assignment 2
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| [[Assignment 2: fluorescence microscopy| Assignment 2 Overview]]
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* [[Assignment 2 Part 1: Noise in images|Part 1: Noise in images]]
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* [[Assignment 2 Part 2: Fluorescence microscopy|Part 2: Fluorescence microscopy]]
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* [[Assignment 2 Part 3: Build an epi-illuminator for your microscope|Part 3: Build an epi-illuminator for your microscope]]
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|
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* [[Geometrical optics and ray tracing]]
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* [[Physical optics and resolution]]
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* [[Optical aberrations]]
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* [[Aperture and field stops]]
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* [[Optical detectors, noise, and the limit of detection]]
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* [[Manta G032 camera measurements]]
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|-
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| <font color=#04B45F>3/1/18</font color>
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| Quiz 1 (in lecture)
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| ||
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|-
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|  <font color=#04B45F>3/4/18</font color>
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| Assignment 3
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| [[Assignment 3 Overview|Assignment 3 Overview]]
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* [[Assignment 3, Part 1: visualizing actin with fluorescence contrast|Part 1: fluorescence imaging]]
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* [[Assignment 3, Part 2: experimental design with fluorescence| Part 2: choosing filters]]
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|
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*[[Flat-field correction|Flat-field correction of non-uniform illumination]]
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*[[Matlab: Scalebars]]
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|-
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|  <font color=#04B45F>3/11/18</font color>
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| Assignment 4
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|{{Template:Assignment 4 navigation}}
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|
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* [[Physical optics and resolution]]
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|-
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|  <font color=#04B45F>3/18/18</font color>
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| Assignment 5
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| [[Assignment 5 Overview|Assignment 5 Overview]]
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* [[Assignment 5, Part 1: viscosity and diffusivity in glycerol-water mixtures|Part 1: Estimating the diffusion coefficient by tracking suspended microspheres]]
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* [[Assignment 5, Part 2: live cell particle tracking of endocytosed beads| Part 2: Live cell particle tracking of endocytosed beads]]
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|
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* [[Converting Gaussian fit to Rayleigh resolution]]
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* [[MATLAB: Estimating resolution from a PSF slide image]]
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* [[Matlab: Scalebars]]
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* [[Calculating MSD and Diffusion Coefficients]]
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|-
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|  <font color=#04B45F>3/22/18</font color>
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| Exam 1 (at 7:30pm in 4-237)
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|
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|
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|-
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|}
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<br />
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===Module 2: Signals and Systems===
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{| border=1px
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|style="width: 10%;"|'''Important dates'''
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|style="width: 15%;"|'''Assignment due'''
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|style="width: 30%;"|'''Assignment page links'''
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|style="width: 45%;"|'''Useful resources'''
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|--
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|  <font color=#04B45F>4/8/18</font color>
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| Assignment 6
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| [[Assignment 6 Overview]]
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* [[Assignment 6, Part 1: Pre-lab questions|Part 1: Pre-lab questions]]
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* [[Assignment 6, Part 2: Electronics bootcamp|Part 2: Build circuits and measure them]]
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|
 
* [[Electronics primer]]
 
* [[Electronics primer]]
 
* [https://www.khanacademy.org/science/electrical-engineering/ee-circuit-analysis-topic Khan Academy Material, esp. "Ideal Circuit Elements" and "Voltage Divider"]
 
* [https://www.khanacademy.org/science/electrical-engineering/ee-circuit-analysis-topic Khan Academy Material, esp. "Ideal Circuit Elements" and "Voltage Divider"]
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* [[Complex Number Review|Complex number review]]
 
* [[Complex Number Review|Complex number review]]
 
* [[Input and output impedance]]
 
* [[Input and output impedance]]
|--
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|-
| Week 10: Apr. 9 - 15
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| <font color=#04B45F>4/15/18</font color>
| Finish up the electronics bootcamp and PSet 3, get started on DNA Melting 1
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| Assignment 7
| <font color=#04B45F> Monday Apr. 10th: Electronics Bootcamp
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| [[Assignment 7 Overview]]
Friday Apr. 14th: PSet 3</font color>
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* [[Assignment 7, Part 1: op amp golden rules questions|Part 1: Op amps]]  
| [[Electronics Mini-Lab|Electronics bootcamp]]
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* [[Assignment 7, Part 2: measure temperature and fluorescence| Part 2: measure temperature and fluorescence]]
[[DNA Melting Part 1: Measuring Temperature and Fluorescence]]
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* [[Assignment 7, Part 3: testing your instrument and measuring a DNA melting curve| Part 3: test your instrument and measure a preliminary melting curve]]
 
|  
 
|  
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* [[DNA Melting Thermodynamics]]
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* [[Real electronics]]
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* [[Impedance Analysis|Impedance analysis]]
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* [[Bode plots|Transfer functions and Bode plots]]
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* [[Complex Number Review|Complex number review]]
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* [[Input and output impedance]]
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|-
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|  <font color=#04B45F>4/19/18</font color>
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| Quiz 2 (in lecture)
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|
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|
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|-
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|  <font color=#04B45F>4/22/18</font color>
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| Assignment 8
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| [[Assignment 8 Overview]]
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* [[Assignment 8, Part 1: convolution|Part 1: convolution and lock-in amplifiers]]
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* [[Assignment 8, Part 2: lock-in amplifier and temperature control| Part 2: modify your instrument]]
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|
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* [http://mfold.rna.albany.edu/?q=DINAMelt/Hybrid2 DINAMelt Web Server]
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|-
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|  <font color=#04B45F>4/29/18</font color>
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| Assignment 9
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| [[Assignment 9 Overview]]
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* [[Assignment 9, Part 1: model function|Part 1: writing the model function]]
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* [[Assignment 9, Part 2: Simulating DNA melting data and testing the model function|Part 2: test your code with simulated data]]
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* [[Assignment 9, Part 3: Fitting your data|Part 3: fitting your data]]
  
Overview
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|
* [[Lab Manual:Measuring DNA Melting Curves]]
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Code examples and simulations
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* [[DNA Melting: Simulating DNA Melting - Basics]]
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* [[DNA Melting: Simulating DNA Melting - Intermediate Topics]]
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* [[DNA Melting: Model function and parameter estimation by nonlinear regression]]
 
* [[DNA Melting: Model function and parameter estimation by nonlinear regression]]
Reference materials
 
 
* [[DNA Melting Thermodynamics]]
 
* [[DNA Melting Thermodynamics]]
* [[DNA Melting: DNA Sequences]]
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* [[DNA melting: Identifying the unknown sample]]
* [http://mfold.rna.albany.edu/?q=DINAMelt/Hybrid2 DINAMelt Web Server]
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|-
Background reading
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|  <font color=#04B45F>5/6/18</font color>
* [[Electronics Primer]]
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| Assignment 10
 
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| [[Assignment 10 Overview|Assignment 10: measure DNA melting curves and identify your unknown sample.]]
<!-- * [[Real electronics]] -->
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|
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* [[DNA melting: Identifying the unknown sample]]
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* [[DNA Melting: DNA Sequences]]
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* [[DNA Melting: Model function and parameter estimation by nonlinear regression]]
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|-
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|  <font color=#04B45F>5/10/18</font color>
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| Exam 2 (at 7:30pm in 4-237)
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|
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|
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|-
 
|}
 
|}
 
</div>
 
</div>
  
 
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==Optics and microscopy resources==
 
+
 
+
 
+
 
+
__TOC__
+
 
+
== 20.309 course information==
+
 
+
* [[20.309:Course Information]]
+
* [[20.309:Lab Report Guidelines]]
+
* [[20.309:Safety]]
+
 
+
Reserve a lab station here: [http://measurebiology.org/reservations/Web/schedule.php Bioinstrumentation Lab reservation system]
+
 
+
==Optics bootcamp==
+
===Lab manual===
+
* [[Optics Bootcamp]]
+
 
+
 
===Background reading===
 
===Background reading===
 
* [[Geometrical optics and ray tracing]]
 
* [[Geometrical optics and ray tracing]]
 +
* [[Physical optics and resolution]]
 +
* [[Optical aberrations]]
 +
* [[Aperture and field stops]]
 
* [[Optical detectors, noise, and the limit of detection]]
 
* [[Optical detectors, noise, and the limit of detection]]
 
* [[Manta G032 camera measurements]]
 
* [[Manta G032 camera measurements]]
 +
* [[Understanding log plots]]
  
{{:Optical microscopy lab wiki pages}}
+
===Code examples and simulations===
 
+
* [[Converting Gaussian fit to Rayleigh resolution]]
==Electronics bootcamp==
+
* [[MATLAB: Estimating resolution from a PSF slide image]]
===Lab manual===
+
* [[Matlab: Scalebars]]
* [[Electronics Mini-Lab|Electronics bootcamp]]
+
* [[Calculating MSD and Diffusion Coefficients]]
  
 +
==Electronics resources==
 
===Background reading===
 
===Background reading===
 
* [[Electronics primer]]
 
* [[Electronics primer]]
Line 98: Line 192:
 
* [[Input and output impedance]]
 
* [[Input and output impedance]]
  
{{:DNA melting lab wiki pages}}
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===Code examples and simulations===
 +
* [[DNA Melting: Simulating DNA Melting - Basics]]
 +
* [[DNA Melting: Simulating DNA Melting - Intermediate Topics]]
 +
* [[DNA Melting: Model function and parameter estimation by nonlinear regression]]
 +
 
 +
===Reference materials===
 +
* [[DNA Melting Thermodynamics]]
 +
* [[DNA Melting: DNA Sequences]]
 +
* [http://mfold.rna.albany.edu/?q=DINAMelt/Hybrid2 DINAMelt Web Server]
  
 
==Limits of detection mini-lab==
 
==Limits of detection mini-lab==

Revision as of 18:20, 29 January 2018

20.309: Biological Instrumentation and Measurement

ImageBar 774.jpg


Bioinstrumentation scholars: you are welcome to edit and improve this course wiki. Correct, helpful, exquisitely-expressed changes will increase your class participation grade. Alterations not meeting those critera may have the opposite effect.

If you would like to contribute to this site, please request an account.

20.309 course information

20.309 master schedule

Module 1: Optics & Microscopy

Important dates Assignment due Assignment page links Useful resources
2/16/18 Assignment 1

Assignment 1 Overview

2/25/18 Assignment 2 Assignment 2 Overview
3/1/18 Quiz 1 (in lecture)
3/4/18 Assignment 3 Assignment 3 Overview
3/11/18 Assignment 4
3/18/18 Assignment 5 Assignment 5 Overview
3/22/18 Exam 1 (at 7:30pm in 4-237)


Module 2: Signals and Systems

Important dates Assignment due Assignment page links Useful resources
4/8/18 Assignment 6 Assignment 6 Overview
4/15/18 Assignment 7 Assignment 7 Overview
4/19/18 Quiz 2 (in lecture)
4/22/18 Assignment 8 Assignment 8 Overview
4/29/18 Assignment 9 Assignment 9 Overview
5/6/18 Assignment 10 Assignment 10: measure DNA melting curves and identify your unknown sample.
5/10/18 Exam 2 (at 7:30pm in 4-237)

Optics and microscopy resources

Background reading

Code examples and simulations

Electronics resources

Background reading

Code examples and simulations

Reference materials

Limits of detection mini-lab

MRI mini-lab

(Kept for historical reasons.)