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1. 20.109(S18):SECONDARY ASSAY D2 (Day6)
2. 20.109(S22):M3D4
3. 20.109 Main Page
4. 20.309:DAQ System
5. 20.309:Lab Report Guidelines
6. 20.309:Learning outcomes
7. 20.309:Safety
8. 20.309: Exam 1 Topics
9. 20.309 Assignment 1: Optics bootcamp
10. 20.345:Final project proposal
11. 20.345:Key Factors Table
12. 20.345:Literature search
13. 20.345: Wiki guidelines
14. A.Williams: Objectives and Literature Review
15. ANOID Project
16. Additional Resources
17. Aligning the optical trap
18. Aperture and field stops
19. Assignment 2: epi illuminator for fluorescence microscopy
20. Assignment 6, Part 3: Identifying unknown filter circuits
21. BEECH Main Page
22. BE Classroom Computer Documentation
23. CM March14
24. CM March28
25. CRISPRi module, Part II: Increasing ethanol yield in E. coli MG1655
26. Calculating MSD and Diffusion Coefficients
27. Capacitors and inductors
28. Cell Printing
29. Cell Printing Experimentation
30. Cell Reservations
31. Complex Number Review
32. Confocal Wiki
33. Converting Gaussian fit to Rayleigh resolution
34. Course Journal -- Nathan S Lachenmyer
35. DAQ Ribbon Cable
36. DNA Melting: DNA Sequences
37. DNA Melting: Using the Basic DNAMelter GUI
38. DNA Melting: Using the LockIn DNAMelter GUI
39. DNA Melting: Using the Matlab DNAMelter GUI
40. DNA Melting II: Using the Matlab DNALockIn GUI
41. DNA melting: Identifying the unknown sample
42. Data Sheets
43. Deconvolved Image
44. Electronics primer
45. Emmanuel Quiroz
46. Equipment on loan
47. Error analysis
48. Estimating second order system parameters from noise power spectra using nonlinear regression
49. Exam 2 study guide
50. FPGA Design Environment
51. Fall 2010: DNA melting report outline
52. Fall 2010: Problem Set 3
53. Fall 2010 Syllabus
54. Fall 2012: Journal Presentations
55. Final Project -- Nathan S Lachenmyer
56. Final Projects
57. Finding and measuring things
58. Flat-field correction
59. Geometrical Optics
60. Hattie Chung
61. In silico cloning of pdCas9 construct
62. Inkjet Technologies
63. Input and output impedance
64. Introduction
65. Key estimates
66. Lab 1 Report -- Nathan S Lachenmyer
67. Lab 2 Report -- Nathan S Lachenmyer
68. Lab Manual:Optical Trapping
69. Lab Manual: Limits of Detection
70. Lab Manual: SLA 3D-Printed Microfluidic Device Master Mold
71. Lab orientation
72. Laser cutter safe operating procedure
73. Lecture Notes:Modeling real systems with ideal elements
74. Limits of Detection:Report Requirements
75. Limits of Detection: Data Sessions
76. MATLAB: Estimating viscoelastic spectrum using Mason's method
77. MATLAB: Intensity-weighted centroid noise formula
78. MSD of Sum and Difference Trajectories
79. Manta G032 camera measurements
80. March14
81. Matlab:Division operators
82. Matlab:Image Processing for Fluorescent Microscopy
83. Matlab:Matlab Fundamentals
84. Matlab: Scalebars
85. Matlab: Simulating Brownian motion
86. Measuring optical magnification
87. Methods
88. Microscope Objective Lenses
89. More info on BJC2100 Attempt
90. Nonlinear regression
91. Optical Microscopy: Brownian motion and microscopy stability
92. Optical Microscopy: Part 1 Report Outline
93. Optical Microscopy: Part 2 Report Outline
94. Optical Microscopy: Part 3 Report Outline
95. Optical Microscopy: Part 4 Report Outline
96. Optical Microscopy Data Sheets
97. Optical Trap Code
98. Optical Trap Graphs
99. Optical aberrations
100. Optical resolution

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