Dead-end pages
The following pages do not link to other pages in Course Wiki.
Showing below up to 132 results starting with #51.
View (previous 500 | next 500) (20 | 50 | 100 | 250 | 500)
- Fall 2010: DNA melting report outline
- Fall 2010: Problem Set 3
- Fall 2010 Syllabus
- Fall 2012: Journal Presentations
- Final Project -- Nathan S Lachenmyer
- Final Projects
- Finding and measuring things
- Flat-field correction
- Geometrical Optics
- Hattie Chung
- In silico cloning of pdCas9 construct
- Inkjet Technologies
- Input and output impedance
- Introduction
- Key estimates
- Lab 1 Report -- Nathan S Lachenmyer
- Lab 2 Report -- Nathan S Lachenmyer
- Lab Manual:Optical Trapping
- Lab Manual: Limits of Detection
- Lab Manual: SLA 3D-Printed Microfluidic Device Master Mold
- Lab orientation
- Laser cutter safe operating procedure
- Lecture Notes:Modeling real systems with ideal elements
- Limits of Detection:Report Requirements
- Limits of Detection: Data Sessions
- MATLAB: Estimating viscoelastic spectrum using Mason's method
- MATLAB: Intensity-weighted centroid noise formula
- MSD of Sum and Difference Trajectories
- Manta G032 camera measurements
- March14
- Matlab:Division operators
- Matlab:Image Processing for Fluorescent Microscopy
- Matlab:Matlab Fundamentals
- Matlab: Scalebars
- Matlab: Simulating Brownian motion
- Measuring optical magnification
- Methods
- Microscope Objective Lenses
- More info on BJC2100 Attempt
- Nonlinear regression
- Optical Microscopy: Brownian motion and microscopy stability
- Optical Microscopy: Part 1 Report Outline
- Optical Microscopy: Part 2 Report Outline
- Optical Microscopy: Part 3 Report Outline
- Optical Microscopy: Part 4 Report Outline
- Optical Microscopy Data Sheets
- Optical Trap Code
- Optical Trap Graphs
- Optical aberrations
- Optical resolution
- Optical trap
- Papers
- Papers to read
- Part 3 Combined Report Outline
- Particle Tracking Exercise
- Power spectral density
- Probability and statistics
- Problem Set 1
- Problem Set 2
- Problem Set 2 Fall 2010
- Procedure: Diffusion in biological gels
- Procedure: Particle tracking
- Procedure: Peptide-DNA Tethering Assay
- Project ideas
- Protocols
- Protocols for making microscopy samples
- Python:DNA melting data analysis
- Recording, displaying and saving images in MATLAB
- Reference List
- Resource list: DNA melting and PCR
- Resource list: Fiber optics
- Resource list: Image Enhancement
- Resource list: Image processing
- Resource list: Magnetic Resonance Imaging
- Resource list: Matlab
- Resource list: Microscopy
- Resource list: Optical trapping
- Resource list: Optics
- Resource list: Particle tracking
- Resource list: Suppliers
- Results
- Review of probability concepts
- SToNCalculator.m
- Save the curve to a USB memory stick
- Shot noise and centroid finding
- Simulating diffusing microspheres in MATLAB
- Spring09:Todo list
- Spring 11:Chemotaxis Assay
- Spring 11:Directed Evolution/KAF95
- Spring 11:Directed Evolution/Perfusion Chambers
- Spring 11:Directed Evolution/Week of 3-14-2011 Status
- Spring 11:Directed Evolution/Week of 3-21-2011 Status
- Spring 11:Directed Evolution/Week of 3-28-2011 Status
- Spring 11:Directed Evolution/Week of 4-04-2011 Status
- Spring 11:Directed Evolution/Week of 4-11-2011 Status
- Spring 11:Directed Evolution/Week of 4-25-2011 Status
- Spring 11:Directed Evolution/Week of 5-02-2011 Status
- Spring 11:Directed Evolution/Week of 5-09-2011 Status
- Spring 11:SMR
- Spring 11 ChemotaxisAssayWeeklyReports
- Spring 11 Chemotaxis Assay Weekly Reports
- Spring 2011:CellFinder
- Spring 2012:Leanna Morinishi Lit Search
- Spring 2012:Snot
- Spring 2012:Vincent Lee Journal
- Spring 2012:Vincent Lee Lab 1
- Spring 2012:Vincent Lee Lab 2
- Spring 2012: Real Time qPCR
- Spring 2012: Williams Key Factors Table
- Spring 2020 Assignment 10
- Spring 2020 Assignment 7
- Spring 2020 Assignment 8
- Spring 2020 Assignment 9
- Spring 2020 assignment 10
- Status Report Interrogatories (Spring 2012)
- Super resolution microscopy
- TableTop MRI
- Technical Writing
- Temporary Optics Bootcamp
- Theory
- Thermal Quenching Model
- ThorLabs OTKB optical trapping kit
- Todo List
- Troubleshooting
- Two-color Yeast Protocols
- Understanding log plots
- Understanding the lock-in amplifier
- Using nonlinear regression to create a camera specification sheet
- Using tfest to find a system model
- Weekly Updates
- Wikibodeplots.m
- Williams: Optical Trapping Lab 1