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51. Spring 2012:PSF lab‏‎ (3 categories)
52. Spring 2012: Real Time qPCR‏‎ (3 categories)
53. Spring 2012: Jonathan Gootenberg Lab 2‏‎ (3 categories)
54. MATLAB: Estimating viscoelastic spectrum using Mason's method‏‎ (3 categories)
55. Assignment 5, Part 1: viscosity and diffusivity in glycerol-water mixtures‏‎ (3 categories)
56. Assignment 5, Part 2: live cell particle tracking of endocytosed beads‏‎ (3 categories)
57. Lab Manual: Atomic Force Microscopy (AFM)‏‎ (3 categories)
58. Assignment 8, Part 2: lock-in amplifier and temperature control‏‎ (3 categories)
59. Resource list: Image Enhancement‏‎ (3 categories)
60. Assignment 2: fluorescence microscopy‏‎ (3 categories)
61. Assignment 7 Overview‏‎ (3 categories)
62. Assignment 8, Part 1: convolution‏‎ (3 categories)
63. Lab Manual: Measuring DNA Melting Curves‏‎ (3 categories)
64. ESTORM‏‎ (3 categories)
65. Spring 2012: Ajoke Jumoke Williams‏‎ (3 categories)
66. Williams: PSF and Deconvolution Lab 2‏‎ (3 categories)
67. Temporary Optics Bootcamp‏‎ (3 categories)
68. DNA Melting: Simulating DNA Melting - Intermediate Topics‏‎ (3 categories)
69. Assignment 2: epi illuminator for fluorescence microscopy‏‎ (3 categories)
70. Spring 2020 Assignment 9‏‎ (2 categories)
71. 20.345:Course Information‏‎ (2 categories)
72. DNA Melting: Simulating DNA Melting - Basics‏‎ (2 categories)
73. Assignment 4 part 2: Measure resolution‏‎ (2 categories)
74. Spring 2012:Vincent Lee Journal‏‎ (2 categories)
75. Spring 2012:LFM Documentation‏‎ (2 categories)
76. Electronics primer‏‎ (2 categories)
77. Electronics Mini-Lab‏‎ (2 categories)
78. Physical optics and resolution‏‎ (2 categories)
79. Understanding the lock-in amplifier‏‎ (2 categories)
80. Assignment 8 Overview: flow channel & two-color microscope‏‎ (2 categories)
81. Impedance Analysis‏‎ (2 categories)
82. Protocols for making microscopy samples‏‎ (2 categories)
83. 20.309 Assignment 1: Optics bootcamp‏‎ (2 categories)
84. Assignment 3, Part 1: visualizing actin with fluorescence contrast‏‎ (2 categories)
85. Assignment 6 Overview‏‎ (2 categories)
86. Assignment 9, Part 1: model function‏‎ (2 categories)
87. DNA Melting Report Requirements‏‎ (2 categories)
88. Assignment 4 part 3: Track microspheres over time‏‎ (2 categories)
89. Optical Microscopy Part 4: Particle Tracking‏‎ (2 categories)
90. Shot noise and centroid finding‏‎ (2 categories)
91. Optical detectors, noise, and the limit of detection‏‎ (2 categories)
92. Electronics bootcamp II: feedback systems‏‎ (2 categories)
93. Bode plots‏‎ (2 categories)
94. Matlab:Matlab Fundamentals‏‎ (2 categories)
95. Spring 2011:3D PSF lab‏‎ (2 categories)
96. DNA Melting Part 2: Lock-in Amplifier and Temperature Control‏‎ (2 categories)
97. Protocols for cell culture‏‎ (2 categories)
98. Fall 2012: Journal Presentations‏‎ (2 categories)
99. DNA Melting: Using the Matlab DNAMelter GUI‏‎ (2 categories)
100. Super resolution microscopy‏‎ (2 categories)
101. Matlab: Scalebars‏‎ (2 categories)
102. Optical Microscopy Part 3: Resolution, Stability, and Particle Tracking‏‎ (2 categories)
103. Input and output impedance‏‎ (2 categories)
104. 20.109(F19):Class data‏‎ (2 categories)
105. Assignment 4: finding and measuring things‏‎ (2 categories)
106. Assignment 6, Part 2: Electronics bootcamp‏‎ (2 categories)
107. Relay Lens Example‏‎ (2 categories)
108. Final Project Proposal Williams‏‎ (2 categories)
109. Protocols‏‎ (2 categories)
110. DNA Melting II: Using the Matlab DNALockIn GUI‏‎ (2 categories)
111. Cellular microrheology‏‎ (2 categories)
112. Assignment 9 Overview: Analyzing yeast images‏‎ (2 categories)
113. Calculating MSD and Diffusion Coefficients‏‎ (2 categories)
114. Electronics written problems II‏‎ (2 categories)
115. DNA Melting Report Requirements for Part 1‏‎ (2 categories)
116. Compound Microscope Example‏‎ (2 categories)
117. Optical Microscopy Part 1: Brightfield Microscopy‏‎ (2 categories)
118. Limits of Detection: Data Sessions‏‎ (2 categories)
119. Optical Microscopy Part 2: Fluorescence Microscopy‏‎ (2 categories)
120. MATLAB: Estimating resolution from a PSF slide image‏‎ (2 categories)
121. Assignment 7: Amplifiers and feedback‏‎ (2 categories)
122. Assignment 9, Part 1: Analyze two-color yeast images‏‎ (2 categories)
123. DNA Melting Part 1: Measuring Temperature and Fluorescence‏‎ (2 categories)
124. Assignment 3, Part 2: experimental design with fluorescence‏‎ (2 categories)
125. Spring 2011:CellFinder‏‎ (2 categories)
126. Limits of Detection:Report Requirements‏‎ (2 categories)
127. Beam Expander Example‏‎ (2 categories)
128. Spring 2012:LFM Proposal‏‎ (2 categories)
129. 20.345: Wiki guidelines‏‎ (2 categories)
130. SToNCalculator.m‏‎ (2 categories)
131. Electronics boot camp I: passive circuits and transfer functions‏‎ (2 categories)
132. 20.309:Course Information‏‎ (2 categories)
133. DNA Melting: Processing DNA Melting Data‏‎ (2 categories)
134. Status Report Interrogatories (Spring 2012)‏‎ (2 categories)
135. Assignment 2 Part 4: Fluorescent imaging of actin‏‎ (2 categories)
136. Finding and measuring things‏‎ (2 categories)
137. Optical Microscopy Part 3: Resolution and Stability‏‎ (2 categories)
138. Geometrical optics and ray tracing‏‎ (2 categories)
139. DNA Melting: Using the Basic DNAMelter GUI‏‎ (2 categories)
140. Electronics boot camp lab part 1‏‎ (2 categories)
141. DNA Melting Thermodynamics‏‎ (2 categories)
142. Resource list: Particle tracking‏‎ (2 categories)
143. Optical Microscopy Data Sheets‏‎ (2 categories)
144. Assignment 2 Part 3: Build an epi-illuminator for your microscope‏‎ (2 categories)
145. Cell Reservations‏‎ (2 categories)
146. Real electronics‏‎ (2 categories)
147. Flat-field correction‏‎ (2 categories)
148. DNA Melting: Using the LockIn DNAMelter GUI‏‎ (2 categories)
149. Electronics written problems‏‎ (2 categories)

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