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1
Acid-Catalyzed Hydration of 1-Hexene (Microscale Synthesis)
2
Acid-Catalyzed Hydration of 1-Hexene with IR (Microscale Synthesis)
3
Acid-Catalyzed Hydration of 1-Hexene with IR; H NMR (Microscale Synthesis)
4
Acid-Catalyzed Hydration of 1-Hexene with IR; H NMR; C NMR (Microscale Synthesis)
5
Aldol Condensation with Melting Point (Microscale Synthesis)
6
Aldol Condensation with Melting Point; IR (Microscale Synthesis)
7
Aldol Condensation with Melting Point; IR; H NMR (Microscale Synthesis)
8
Aldol Condensation with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
9
Hydroboration and Oxidation of 1-Hexene (Macroscale Synthesis)
10
Hydroboration and Oxidation of 1-Hexene with IR (Macroscale Synthesis)
11
Hydroboration and Oxidation of 1-Hexene with IR; H NMR (Macroscale Synthesis)
12
Hydroboration and Oxidation of 1-Hexene with IR; H NMR; C NMR (Macroscale Synthesis)
13
Hydroboration and Oxidation of 1-Hexene (Microscale Synthesis)
14
Hydroboration and Oxidation of 1-Hexene with IR (Microscale Synthesis)
15
Hydroboration and Oxidation of 1-Hexene with IR; H NMR (Microscale Synthesis)
16
Hydroboration and Oxidation of 1-Hexene with IR; H NMR; C NMR (Microscale Synthesis)
17
Hydroboration and Oxidation of 1-Hexene (Asymmetric Microscale Synthesis)
18
Hydroboration and Oxidation of 1-Hexene with IR (Asymmetric Microscale Synthesis)
19
Hydroboration and Oxidation of 1-Hexene with IR; H NMR (Asymmetric Microscale Synthesis)
20
Hydroboration and Oxidation of 1-Hexene with IR; H NMR; C NMR (Asymmetric Microscale Synthesis)
21
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point (Macroscale Synthesis)
22
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point; IR (Macroscale Synthesis)
23
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point; IR; H NMR (Macroscale Synthesis)
24
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
25
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point (Microscale Synthesis)
26
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point; IR (Microscale Synthesis)
27
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point; IR; H NMR (Microscale Synthesis)
28
Stereochemistry of the Addition of Bromine to trans-Cinnamic Acid with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
29
C-NMR Identification of Unknown with C NMR (Dry Lab)
30
H NMR Identification of Unknowns with H NMR (Dry Lab)
31
IR Identification of Unknowns with IR (Dry Lab)
32
Reaction of Iodoethane with Sodium Saccharin with Melting Point
33
Reaction of Iodoethane with Sodium Saccharin with Melting Point (Microscale Synthesis)
34
Synthesis of Aspirin for Intro Chem or GOB (Macroscale Synthesis)
35
Synthesis of Aspirin for Intro Chem or GOB with TLC (Macroscale Synthesis)
36
Synthesis of Aspirin for Intro Chem or GOB with Melting Point (Macroscale Synthesis)
37
Synthesis of Aspirin for Intro Chem or GOB with Melting Point; TLC (Macroscale Synthesis)
38
Synthesis of Aspirin for Organic with Melting Point (Macroscale Synthesis)
39
Synthesis of Aspirin for Organic with Melting Point; IR (Macroscale Synthesis)
40
Synthesis of Aspirin for Organic with Melting Point; IR; H NMR (Macroscale Synthesis)
41
Synthesis of Aspirin for Organic with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
42
Synthesis of Aspirin for Organic with Melting Point (Microscale Synthesis)
43
Synthesis of Aspirin for Organic with Melting Point; IR (Microscale Synthesis)
44
Synthesis of Aspirin for Organic with Melting Point; IR; H NMR (Microscale Synthesis)
45
Synthesis of Aspirin for Organic with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
46
Amino Acids (Macroscale Synthesis)
47
Carbohydrates (Macroscale Synthesis)
48
Lipids (Macroscale Synthesis)
49
Peptides and Proteins (Macroscale Synthesis)
50
Peptides and Proteins With Identification of Unknown (Macroscale Synthesis)
51
Coordination Compounds
52
Coordination Compounds Using Copper (II) Sulfate
53
Measuring Avogadro’s Number
54
Voltaic Cells
55
Atomic Spectra
56
Atomic Spectra Using Theoretical Calculations
57
Beer's Law and Spectrophotometry (Using PhET Simulation)
58
Beer's Law and Spectrophotometry (Using Colorimeter)
59
Visible Spectra and the Nature of Light and Color
60
Acid-Catalyzed Dehydration of an Alcohol (Macroscale Synthesis)
61
Acid-Catalyzed Dehydration of an Alcohol with IR (Macroscale Synthesis)
62
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR (Macroscale Synthesis)
63
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR; C NMR (Macroscale Synthesis)
64
Acid-Catalyzed Dehydration of an Alcohol with GC (Macroscale Synthesis)
65
Acid-Catalyzed Dehydration of an Alcohol with IR; GC (Macroscale Synthesis)
66
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR; GC (Macroscale Synthesis)
67
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR; C NMR; GC (Macroscale Synthesis)
68
Acid-Catalyzed Dehydration of an Alcohol (Microscale Synthesis)
69
Acid-Catalyzed Dehydration of an Alcohol with IR (Microscale Synthesis)
70
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR (Microscale Synthesis)
71
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR; C NMR (Microscale Synthesis)
72
Acid-Catalyzed Dehydration of an Alcohol with GC (Microscale Synthesis)
73
Acid-Catalyzed Dehydration of an Alcohol with IR; GC (Microscale Synthesis)
74
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR; GC (Microscale Synthesis)
75
Acid-Catalyzed Dehydration of an Alcohol with IR; H NMR; C NMR; GC (Microscale Synthesis)
76
Acid/Base Titration; Buffers; and pH
77
Buffer Solutions (using drops)
78
Buffer Solutions (using mL)
79
Determination of an Equilibrium Constant
80
Determination of an Equilibrium Constant (half volumes)
81
Determination of Solubility Product Constant
82
Determination of Solubility Product Constant With Common Ion Effect
83
Le Chatelier's Principle
84
Using Spectrophotometry to Determine an Equilibrium Constant
85
Inorganic Nomenclature of Binary and Ternary Compounds (Dry Lab)
86
Inorganic Nomenclature of Binary Compounds; Including Oxidation Numbers (Dry Lab)
87
Inorganic Nomenclature of Binary and Ternary Compounds; Including Oxidation Numbers and Ternary Compounds (Dry Lab)
88
Exploring Intermolecular Attractions via Viscosity (using test tubes)
89
Exploring Intermolecular Attractions via Viscosity (using test tubes including used motor oil)
90
Exploring Intermolecular Attractions via Viscosity (using capillary action)
91
Exploring Intermolecular Attractions via Viscosity (using capillary action including used motor oil)
92
Melting Points of Compounds and Mixtures with Melting Point (Macroscale Synthesis)
93
Preparation and Properties of Soap
94
Soluble and Insoluble Salts
95
Soluble and Insoluble Salts for Intro Chem or GOB
96
Solutions; Electrolytes; and Concentrations
97
Solutions; Electrolytes; and Concentrations (Using a Digital Conductivity Meter)
98
Kinetics of an Iodine Clock Reaction (Macroscale Synthesis)
99
Kinetics of an Iodine Clock Reaction With Activation Energy (Macroscale Synthesis)
100
Kinetics of an Iodine Clock Reaction (Microscale Synthesis)
101
Kinetics of an Iodine Clock Reaction With Activation Energy (Microscale Synthesis)
102
Basic Laboratory Techniques
103
Density and Specific Gravity with hydrometer
104
Density and Specific Gravity
105
Determination of Density
106
Glassware; Techniques; and Measurement
107
Glassware; Techniques; and Measurement Using 25 mL grad cylinders
108
Introduction to Laboratory Measurements
109
Introduction to Laboratory Measurements With Volumetric Pipet
110
Two-step Synthesis of Anisic Acid with MP; IR (Microscale Synthesis)
111
Two-step Synthesis of Anisic Acid with MP; IR; H NMR (Microscale Synthesis)
112
Two-step Synthesis of Anisic Acid with MP; IR; H NMR; C NMR (Microscale Synthesis)
113
Diels-Alder Reaction with Melting Point (Microscale Synthesis)
114
Diels-Alder Reaction with Melting Point; IR (Microscale Synthesis)
115
Grignard Reaction: Synthesis of Benzoic Acid with Melting Point (Macroscale Synthesis)
116
Grignard Reaction: Synthesis of Benzoic Acid with Melting Point; IR (Macroscale Synthesis)
117
Grignard Reaction: Synthesis of Benzoic Acid with Melting Point; IR; C NMR (Macroscale Synthesis)
118
Grignard Reaction: Synthesis of Benzoic Acid with Melting Point (Microscale Synthesis)
119
Grignard Reaction: Synthesis of Benzoic Acid with Melting Point; IR (Microscale Synthesis)
120
Grignard Reaction: Synthesis of Benzoic Acid with Melting Point; IR; C NMR (Microscale Synthesis)
121
Williamson Ether Synthesis with Melting Point (Macroscale Synthesis)
122
Williamson Ether Synthesis with Melting Point; IR (Macroscale Synthesis)
123
Williamson Ether Synthesis with Melting Point; IR; H NMR (Macroscale Synthesis)
124
Williamson Ether Synthesis with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
125
Williamson Ether Synthesis with Melting Point (Microscale Synthesis)
126
Williamson Ether Synthesis with Melting Point; IR (Microscale Synthesis)
127
Williamson Ether Synthesis with Melting Point; IR; H NMR (Microscale Synthesis)
128
Williamson Ether Synthesis with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
129
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point (Macroscale Synthesis)
130
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point; IR (Macroscale Synthesis)
131
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point; IR; H NMR (Macroscale Synthesis)
132
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
133
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point (Macroscale Synthesis)
134
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point; IR (Macroscale Synthesis)
135
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point; IR; H NMR (Macroscale Synthesis)
136
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
137
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point (Microscale Synthesis)
138
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point; IR (Microscale Synthesis)
139
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point; IR; H NMR (Microscale Synthesis)
140
Wittig Reaction of Trans-Cinnamaldehyde with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
141
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point (Microscale Synthesis)
142
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point; IR (Microscale Synthesis)
143
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point; IR; H NMR (Microscale Synthesis)
144
Wittig Reaction of Trans-Cinnamaldehyde with TLC; Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
145
Molecular Modeling (Dry Lab)
146
Structures in Organic Compounds Using Model Kits (Dry Lab)
147
Structures in Organic Compounds Using WebMO (Dry Lab)
148
Cannizzaro Reaction: Reaction Without a Solvent with Melting Point (Macroscale Synthesis)
149
Cannizzaro Reaction: Reaction Without a Solvent with Melting Point; IR (Macroscale Synthesis)
150
Cannizzaro Reaction: Reaction Without a Solvent with Melting Point; IR; H NMR (Macroscale Synthesis)
151
Cannizzaro Reaction: Reaction Without a Solvent with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
152
Copper-Catalyzed Oxidation of Benzoin with Melting Point (Macroscale Synthesis)
153
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR (Macroscale Synthesis)
154
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR; H NMR (Macroscale Synthesis)
155
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
156
Copper-Catalyzed Oxidation of Benzoin with Melting Point (Microscale Synthesis)
157
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR (Microscale Synthesis)
158
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR; H NMR (Microscale Synthesis)
159
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
160
Copper-Catalyzed Oxidation of Benzoin with Melting Point (Microscale Synthesis with Microwave Reaction)
161
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR (Microscale Synthesis with Microwave Reaction)
162
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR; H NMR (Microscale Synthesis with Microwave Reaction)
163
Copper-Catalyzed Oxidation of Benzoin with Melting Point; IR; H NMR; C NMR (Microscale Synthesis with Microwave Reaction)
164
Oxidation-Reduction Reactions
165
Reducing Benzil Using Sodium Borohydride with Melting Point (Macroscale Synthesis)
166
Reducing Benzil Using Sodium Borohydride with Melting Point; IR (Macroscale Synthesis)
167
Reducing Benzil Using Sodium Borohydride with Melting Point; IR; H NMR (Macroscale Synthesis)
168
Reducing Benzil Using Sodium Borohydride with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
169
Reducing Benzil Using Sodium Borohydride with Melting Point (Microscale Synthesis)
170
Reducing Benzil Using Sodium Borohydride with Melting Point; IR (Microscale Synthesis)
171
Reducing Benzil Using Sodium Borohydride with Melting Point; IR; H NMR (Microscale Synthesis)
172
Reducing Benzil Using Sodium Borohydride with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
173
Colligative Properties With Boiling Point and Freezing Point
174
Colligative Properties With Boiling Point
175
Colligative Properties With Freezing Point
176
Molar Mass of Solute using Freezing Point Depression
177
Identification of Polymers
178
Polymer Crosslinking: Slime
179
Polymer Crosslinking: Slime (student-made PVA solution)
180
Aldehydes and Ketones (Macroscale Synthesis)
181
Aqueous Solutions (Macroscale Synthesis)
182
Classification of Alcohols (Macroscale Synthesis)
183
Identification of Alcohols and Phenols (Macroscale Synthesis)
184
Reactions of Hydrocarbons (Macroscale Synthesis)
185
Thin Layer Chromatography for Analysis of Drug Components with TLC
186
Analysis of KClO3/KCl Mixture Using the Ideal Gas Law
187
Boyle's Law: Exploring Precision in the Lab
188
Ideal Gas Law
189
Ideal Gas Law Using kPa
190
Chemistry of Copper and Percent Yield
191
Chemistry of Copper and Percent Yield Starting With a Solution
192
Extraction of Caffeine with Melting Point (Macroscale Synthesis)
193
Fractional Distillation (Macroscale Synthesis)
194
Fractional Distillation with GC (Microscale Synthesis)
195
Fractional Distillation (Microscale Synthesis)
196
Fractional Distillation with GC (Macroscale Synthesis)
197
Purifying Acetanilide through Recrystallization with Melting Point; IR (Macroscale Synthesis)
198
Purifying Acetanilide through Recrystallization with Melting Point (Macroscale Synthesis)
199
Purifying Acetanilide through Recrystallization with Melting Point (Microscale Synthesis)
200
Quantitative Separation of a Solid Mixture
201
Separation by Distillation (Macroscale Synthesis)
202
Separation by Distillation with GC (Macroscale Synthesis)
203
Separation by Distillation (Microscale Synthesis)
204
Separation by Distillation with GC (Microscale Synthesis)
205
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point (Macroscale Synthesis)
206
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point; IR (Macroscale Synthesis)
207
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point (Macroscale Synthesis with Green Synthesis)
208
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point; IR (Macroscale Synthesis with Green Synthesis)
209
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point (Microscale Synthesis)
210
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point; IR (Microscale Synthesis)
211
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point (Microscale Synthesis with Green Synthesis)
212
Separation of 3-Nitroaniline; Benzoic Acid; and Naphthalene with Melting Point; IR (Microscale Synthesis with Green Synthesis)
213
Separation of Components of a Mixture
214
Chemical and Physical Properties
215
Chemical Reactions and Equations
216
Chemical Reactions and Equations with two sodium carbonate reactions
217
Chemicals in Everyday Life
218
Identification of a Halide
219
Periodic Trends in Physical and Chemical Properties
220
pH Scale of Acid and Base Solutions
221
Qualitative Analysis of Anions
222
Qualitative Analysis of Cations
223
Types of Chemical Reactions
224
Conversion Factors and Problem Solving
225
Using Excel to Graph Data
226
Using Excel to Graph Data to Determine Pi
227
Using Excel to Graph Data About Hookworms
228
Using Excel to Graph Data About Tire Pressure
229
Nuclear Radiation
230
Nuclear Radiation Including Nuclear Reactions
231
Nuclear Radiation Including Half-Life
232
Nuclear Radiation Including Nuclear Reactions and Half-Life
233
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point (Macroscale Synthesis)
234
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR (Macroscale Synthesis)
235
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR (Macroscale Synthesis)
236
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
237
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point (Microscale Synthesis)
238
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR (Microscale Synthesis)
239
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR (Microscale Synthesis)
240
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
241
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; GC (Macroscale Synthesis)
242
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; GC (Macroscale Synthesis)
243
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR; GC (Macroscale Synthesis)
244
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR; C NMR; GC (Macroscale Synthesis)
245
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; GC (Microscale Synthesis)
246
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; GC (Microscale Synthesis)
247
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR; GC (Microscale Synthesis)
248
Analysis of a Conjugated Diene from Eucalyptus Oil with Melting Point; IR; H NMR; C NMR; GC (Microscale Synthesis)
249
Pinacol Rearrangement (Macroscale Synthesis)
250
Pinacol Rearrangement with IR (Macroscale Synthesis)
251
Pinacol Rearrangement with IR; H NMR (Macroscale Synthesis)
252
Pinacol Rearrangement with IR; H NMR; C NMR (Macroscale Synthesis)
253
Pinacol Rearrangement (Microscale Synthesis)
254
Pinacol Rearrangement with IR (Microscale Synthesis)
255
Pinacol Rearrangement with IR; H NMR (Microscale Synthesis)
256
Pinacol Rearrangement with IR; H NMR; C NMR (Microscale Synthesis)
257
Pinacol Rearrangement (Microscale Synthesis with Solventless Green Synthesis)
258
Pinacol Rearrangement with IR (Microscale Synthesis with Solventless Green Synthesis)
259
Pinacol Rearrangement with IR; H NMR (Microscale Synthesis with Solventless Green Synthesis)
260
Pinacol Rearrangement with IR; H NMR; C NMR (Microscale Synthesis with Solventless Green Synthesis)
261
Determination of Amount of Sodium Hypochlorite in Bleach: A Redox Titration
262
Determination of Molar Mass and Identity of Diprotic Acid
263
Determination of Molar Mass and Identity of Diprotic Acid With Standardization
264
Empirical Formulas
265
Limiting Reactants
266
Titration: Determining the Concentration of an Acid
267
Titration: Determining the Concentration of an Acid With Standardization
268
Volumetric Analysis
269
Volumetric Analysis Without Standardization
270
Compounds and their Bonds of Ionic and Covalent Compounds
271
Compounds and their Bonds of Covalent Compounds
272
Compounds and their Bonds of Ionic Compounds
273
Compounds and their Bonds of Ionic and Covalent Compounds with Oxidation States
274
Compounds and their Bonds of Ionic Compounds with Oxidation States
275
Lewis Structures and Molecular Modeling (Dry Lab)
276
Modeling Geometry and Polarity Using Model Kits (Dry Lab)
277
Modeling Geometry and Polarity Using Model Kits Including Resonance (Dry Lab)
278
Modeling Geometry and Polarity Using Model Kits including Expanded Octets (Dry Lab)
279
Modeling Geometry and Polarity Using Model Kits excluding Multicenter Molecules (Dry Lab)
280
Modeling Geometry and Polarity Using WebMO App (Dry Lab)
281
Modeling Geometry and Polarity Using WebMO App including Resonance (Dry Lab)
282
Modeling Geometry and Polarity Using WebMO App including Resonance and MOs (Dry Lab)
283
Banana Oil: Synthesis of an Ester (Macroscale Synthesis)
284
Banana Oil: Synthesis of an Ester with IR (Macroscale Synthesis)
285
Banana Oil: Synthesis of an Ester with IR; H NMR (Macroscale Synthesis)
286
Banana Oil: Synthesis of an Ester with IR; H NMR; C NMR (Macroscale Synthesis)
287
Banana Oil: Synthesis of an Ester with Distillation (Macroscale Synthesis)
288
Banana Oil: Synthesis of an Ester with Distillation; IR (Macroscale Synthesis)
289
Banana Oil: Synthesis of an Ester with Distillation; IR; H NMR (Macroscale Synthesis)
290
Banana Oil: Synthesis of an Ester with Distillation; IR; H NMR; C NMR (Macroscale Synthesis)
291
Directive Effects in the Bromination of Vanillin with Melting Point (Macroscale Synthesis)
292
Directive Effects in the Bromination of Vanillin with Melting Point; IR (Macroscale Synthesis)
293
Directive Effects in the Bromination of Vanillin with Melting Point (Microscale Synthesis)
294
Directive Effects in the Bromination of Vanillin with Melting Point; IR (Microscale Synthesis)
295
Nucleophilic Aromatic Substitution with Melting Point (Macroscale Synthesis)
296
Nucleophilic Aromatic Substitution with Melting Point; IR (Macroscale Synthesis)
297
Nucleophilic Aromatic Substitution with Melting Point; IR; H NMR (Macroscale Synthesis)
298
Nucleophilic Aromatic Substitution with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
299
Nucleophilic Aromatic Substitution with Melting Point (Microscale Synthesis)
300
Nucleophilic Aromatic Substitution with Melting Point; IR (Microscale Synthesis)
301
Nucleophilic Aromatic Substitution with Melting Point; IR; H NMR (Microscale Synthesis)
302
Nucleophilic Aromatic Substitution with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
303
Nucleophilic Aromatic Substitution with Melting Point (Microscale Synthesis with Microwave Reaction)
304
Nucleophilic Aromatic Substitution with Melting Point; IR (Microscale Synthesis with Microwave Reaction)
305
Nucleophilic Aromatic Substitution with Melting Point; IR; H NMR (Microscale Synthesis with Microwave Reaction)
306
Nucleophilic Aromatic Substitution with Melting Point; IR; H NMR; C NMR (Microscale Synthesis with Microwave Reaction)
307
Nucleophilic Substitution Preparation of Nerolin with Melting Point (Macroscale Synthesis)
308
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR (Macroscale Synthesis)
309
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR; H NMR (Macroscale Synthesis)
310
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
311
Nucleophilic Substitution Preparation of Nerolin with Melting Point (Microscale Synthesis)
312
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR (Microscale Synthesis)
313
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR; H NMR (Microscale Synthesis)
314
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
315
Nucleophilic Substitution Preparation of Nerolin with Melting Point (Microscale Synthesis with Microwave Reaction)
316
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR (Microscale Synthesis with Microwave Reaction)
317
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR; H NMR (Microscale Synthesis with Microwave Reaction)
318
Nucleophilic Substitution Preparation of Nerolin with Melting Point; IR; H NMR; C NMR (Microscale Synthesis with Microwave Reaction)
319
Substituent Effects in Electrophilic Aromatic Substitution with Melting Point (Macroscale Synthesis)
320
Substituent Effects in Electrophilic Aromatic Substitution with Melting Point; IR; H NMR (Microscale Synthesis)
321
Substituent Effects in Electrophilic Aromatic Substitution with IR (Microscale Synthesis)
322
Synthesis of Esters (Macroscale Synthesis)
323
Synthesis of Esters with IR (Macroscale Synthesis)
324
Synthesis of Esters with IR; H NMR (Macroscale Synthesis)
325
Synthesis of Esters with IR; H NMR; C NMR (Macroscale Synthesis)
326
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point (Macroscale Synthesis)
327
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point; IR (Macroscale Synthesis)
328
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point; IR; H NMR (Macroscale Synthesis)
329
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point; IR; H NMR; C NMR (Macroscale Synthesis)
330
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point (Microscale Synthesis)
331
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point; IR (Microscale Synthesis)
332
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point; IR; H NMR (Microscale Synthesis)
333
Trityl bromide and Ethanol in an SN1 Reaction with Melting Point; IR; H NMR; C NMR (Microscale Synthesis)
334
Energy and Specific Heat
335
Thermochemistry: Enthalpy of Combustion for Fuels (using hexane)
336
Thermochemistry: Enthalpy of Combustion for Fuels (using methanol)
337
Constant Pressure Calorimetry Using Joules
338
Constant Pressure Calorimetry Using calories
339
Entropy of Borax Dissolution
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Procedure
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Analysis Options
HX
Organic
Microscale Synthesis
HX4
Organic
Microscale Synthesis
IR
HX3
Organic
Microscale Synthesis
IR
H NMR
HX2
Organic
Microscale Synthesis
IR
H NMR
C NMR
AC
Organic
Microscale Synthesis
Melting Point
AC2
Organic
Microscale Synthesis
Melting Point
IR
AC3
Organic
Microscale Synthesis
Melting Point
IR
H NMR
AC4
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
HB
Organic
Macroscale Synthesis
HB10
Organic
Macroscale Synthesis
IR
HB11
Organic
Macroscale Synthesis
IR
H NMR
HB12
Organic
Macroscale Synthesis
IR
H NMR
C NMR
HB6
Organic
Microscale Synthesis
HB7
Organic
Microscale Synthesis
IR
HB8
Organic
Microscale Synthesis
IR
H NMR
HB9
Organic
Microscale Synthesis
IR
H NMR
C NMR
HB5
Organic
Asymmetric Microscale Synthesis
HB4
Organic
Asymmetric Microscale Synthesis
IR
HB3
Organic
Asymmetric Microscale Synthesis
IR
H NMR
HB2
Organic
Asymmetric Microscale Synthesis
IR
H NMR
C NMR
BR
Organic
Macroscale Synthesis
Melting Point
BR2
Organic
Macroscale Synthesis
Melting Point
IR
BR3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
BR4
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
BR5
Organic
Microscale Synthesis
Melting Point
BR6
Organic
Microscale Synthesis
Melting Point
IR
BR7
Organic
Microscale Synthesis
Melting Point
IR
H NMR
BR8
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
CNMR
Organic
Dry Lab
C NMR
NMR
Organic
Dry Lab
H NMR
IR
Organic
Dry Lab
IR
SA
Organic
Melting Point
SA2
Microscale Synthesis
Melting Point
A
GOB
Intro
Macroscale Synthesis
A3
GOB
Intro
Macroscale Synthesis
TLC
A2
GOB
Intro
Macroscale Synthesis
Melting Point
A4
GOB
Intro
Macroscale Synthesis
Melting Point
TLC
A7
Organic
Macroscale Synthesis
Melting Point
A8
Organic
Macroscale Synthesis
Melting Point
IR
A6
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
A5
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
A10
Organic
Microscale Synthesis
Melting Point
A9
Organic
Microscale Synthesis
Melting Point
IR
A12
Organic
Microscale Synthesis
Melting Point
IR
H NMR
A11
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
AA
GOB
Macroscale Synthesis
CHO
GOB
Macroscale Synthesis
LI
GOB
Macroscale Synthesis
PP
GOB
Macroscale Synthesis
PP2
GOB
Macroscale Synthesis
CO
General
CO2
General
AV
General
VC
General
SP
General
SP2
General
BL
General
Using PhET Simulation
BL2
General
Using Colorimeter
VS
General
DO
Organic
Macroscale Synthesis
DO2
Organic
Macroscale Synthesis
IR
DO3
Organic
Macroscale Synthesis
IR
H NMR
DO4
Organic
Macroscale Synthesis
IR
H NMR
C NMR
DO5
Organic
Macroscale Synthesis
GC
DO6
Organic
Macroscale Synthesis
IR
GC
DO7
Organic
Macroscale Synthesis
IR
H NMR
GC
DO8
Organic
Macroscale Synthesis
IR
H NMR
C NMR
GC
DO9
Organic
Microscale Synthesis
DO10
Organic
Microscale Synthesis
IR
DO11
Organic
Microscale Synthesis
IR
H NMR
DO12
Organic
Microscale Synthesis
IR
H NMR
C NMR
DO13
Organic
Microscale Synthesis
GC
DO14
Organic
Microscale Synthesis
IR
GC
DO15
Organic
Microscale Synthesis
IR
H NMR
GC
DO16
Organic
Microscale Synthesis
IR
H NMR
C NMR
GC
AB
General
BU
General
using drops
BU2
General
using mL
EQ
General
EQ2
General
half volumes
KSP
General
KSP2
General
LC
General
KEQ
General
IN2
General
Dry Lab
IN3
General
Dry Lab
IN
General
Dry Lab
VI
General
Intro
GOB
using test tubes
VI2
General
Intro
GOB
using test tubes including used motor oil
VI3
General
Intro
GOB
using capillary action
VI4
General
Intro
GOB
using capillary action including used motor oil
MP
Organic
Macroscale Synthesis
Melting Point
SO
GOB
IS
General
IS2
General
SEC
General
SEC2
General
Using a Digital Conductivity Meter
IC
General
Macroscale Synthesis
IC4
General
Macroscale Synthesis
IC2
General
Microscale Synthesis
IC3
General
Microscale Synthesis
TX
Intro
General
DSG
Intro
DSG2
Intro
DD
General
GOB
Intro
GM
General
GOB
Intro
GM3
General
ME
General
ME2
General
AN
Organic
Microscale Synthesis
MP
IR
AN2
Organic
Microscale Synthesis
MP
IR
H NMR
AN3
Organic
Microscale Synthesis
MP
IR
H NMR
C NMR
DA
Organic
Microscale Synthesis
Melting Point
DA2
Organic
Microscale Synthesis
Melting Point
IR
G4
Organic
Macroscale Synthesis
Melting Point
G5
Organic
Macroscale Synthesis
Melting Point
IR
G6
Organic
Macroscale Synthesis
Melting Point
IR
C NMR
G
Organic
Microscale Synthesis
Melting Point
G2
Organic
Microscale Synthesis
Melting Point
IR
G3
Organic
Microscale Synthesis
Melting Point
IR
C NMR
W
Organic
Macroscale Synthesis
Melting Point
W2
Organic
Macroscale Synthesis
Melting Point
IR
W3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
W4
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
W5
Organic
Microscale Synthesis
Melting Point
W6
Organic
Microscale Synthesis
Melting Point
IR
W7
Organic
Microscale Synthesis
Melting Point
IR
H NMR
W8
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
WT
Organic
Macroscale Synthesis
Melting Point
WT2
Organic
Macroscale Synthesis
Melting Point
IR
WT3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
WT4
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
WT5
Organic
Macroscale Synthesis
TLC
Melting Point
WT6
Organic
Macroscale Synthesis
TLC
Melting Point
IR
WT7
Organic
Macroscale Synthesis
TLC
Melting Point
IR
H NMR
WT8
Organic
Macroscale Synthesis
TLC
Melting Point
IR
H NMR
C NMR
WT9
Organic
Microscale Synthesis
Melting Point
WT10
Organic
Microscale Synthesis
Melting Point
IR
WT11
Organic
Microscale Synthesis
Melting Point
IR
H NMR
WT12
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
WT13
Organic
Microscale Synthesis
TLC
Melting Point
WT14
Organic
Microscale Synthesis
TLC
Melting Point
IR
WT15
Organic
Microscale Synthesis
TLC
Melting Point
IR
H NMR
WT16
Organic
Microscale Synthesis
TLC
Melting Point
IR
H NMR
C NMR
MM
Organic
Dry Lab
OS
Organic
Dry Lab
OS2
Organic
Dry Lab
CZ
Organic
Macroscale Synthesis
Melting Point
CZ4
Organic
Macroscale Synthesis
Melting Point
IR
CZ3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
CZ2
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
BZO
Organic
Macroscale Synthesis
Melting Point
BZO4
Organic
Macroscale Synthesis
Melting Point
IR
BZO3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
BZO2
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
BZO5
Organic
Microscale Synthesis
Melting Point
BZO8
Organic
Microscale Synthesis
Melting Point
IR
BZO7
Organic
Microscale Synthesis
Melting Point
IR
H NMR
BZO6
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
BZO9
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
BZO12
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
BZO11
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
H NMR
BZO10
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
H NMR
C NMR
OXR
General
Intro
BZ
Organic
Macroscale Synthesis
Melting Point
BZ4
Organic
Macroscale Synthesis
Melting Point
IR
BZ3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
BZ2
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
BZ5
Organic
Microscale Synthesis
Melting Point
BZ8
Organic
Microscale Synthesis
Melting Point
IR
BZ7
Organic
Microscale Synthesis
Melting Point
IR
H NMR
BZ6
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
COL
General
COL2
General
COL3
General
FPD
General
PO
General
PX
Intro
PX2
Intro
student-made PVA solution
AK
Organic
Macroscale Synthesis
AS
Organic
Macroscale Synthesis
CAL
Organic
Macroscale Synthesis
AP
GOB
Macroscale Synthesis
RH
Organic
GOB
Macroscale Synthesis
TLC
Organic
TLC
CLO
General
BY
General
IG
General
IG2
General
CC
General
CC2
General
Intro
GOB
CAF
Organic
Macroscale Synthesis
Melting Point
FD
Organic
Macroscale Synthesis
FD4
Organic
Microscale Synthesis
GC
FD3
Organic
Microscale Synthesis
FD2
Organic
Macroscale Synthesis
GC
AL2
Organic
Macroscale Synthesis
Melting Point
IR
AL
Organic
Macroscale Synthesis
Melting Point
AL3
Organic
Microscale Synthesis
Melting Point
SM
General
SD2
Organic
Macroscale Synthesis
SD
Organic
Macroscale Synthesis
GC
SD4
Organic
Microscale Synthesis
SD3
Organic
Microscale Synthesis
GC
SN
Organic
Macroscale Synthesis
Melting Point
SN2
Organic
Macroscale Synthesis
Melting Point
IR
SN3
Organic
Macroscale Synthesis
Green Synthesis
Melting Point
SN4
Organic
Macroscale Synthesis
Green Synthesis
Melting Point
IR
SN5
Organic
Microscale Synthesis
Melting Point
SN6
Organic
Microscale Synthesis
Melting Point
IR
SN7
Organic
Microscale Synthesis
Green Synthesis
Melting Point
SN8
Organic
Microscale Synthesis
Green Synthesis
Melting Point
IR
MX
Intro
CPP
General
Intro
GOB
CE
General
CE2
General
CL
Intro
HA
General
PT
General
Intro
GOB
PH
General
QA
General
QC
General
CR
General
CF
Intro
EX
General
EX2
General
EX3
General
EX4
General
NU
General
NU3
General
NU2
General
NU4
General
EU
Organic
Macroscale Synthesis
Melting Point
EU2
Organic
Macroscale Synthesis
Melting Point
IR
EU3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
EU4
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
EU5
Organic
Microscale Synthesis
Melting Point
EU6
Organic
Microscale Synthesis
Melting Point
IR
EU7
Organic
Microscale Synthesis
Melting Point
IR
H NMR
EU8
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
EU9
Organic
Macroscale Synthesis
Melting Point
GC
EU10
Organic
Macroscale Synthesis
Melting Point
IR
GC
EU11
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
GC
EU12
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
GC
EU13
Organic
Microscale Synthesis
Melting Point
GC
EU14
Organic
Microscale Synthesis
Melting Point
IR
GC
EU15
Organic
Microscale Synthesis
Melting Point
IR
H NMR
GC
EU16
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
GC
PR
Organic
Macroscale Synthesis
PR2
Organic
Macroscale Synthesis
IR
PR3
Organic
Macroscale Synthesis
IR
H NMR
PR4
Organic
Macroscale Synthesis
IR
H NMR
C NMR
PR5
Organic
Microscale Synthesis
PR6
Organic
Microscale Synthesis
IR
PR7
Organic
Microscale Synthesis
IR
H NMR
PR8
Organic
Microscale Synthesis
IR
H NMR
C NMR
PR9
Organic
Microscale Synthesis
Solventless Green Synthesis
PR10
Organic
Microscale Synthesis
Solventless Green Synthesis
IR
PR11
Organic
Microscale Synthesis
Solventless Green Synthesis
IR
H NMR
PR12
Organic
Microscale Synthesis
Solventless Green Synthesis
IR
H NMR
C NMR
RX
General
DM
General
DM2
General
EF
General
LR
General
Intro
GOB
T
General
T2
General
VA
General
VA2
General
B
General
B2
General
B3
General
B4
General
B5
General
LS
General
Dry Lab
MGP
General
Dry Lab
MGP2
General
Dry Lab
MGP3
General
Dry Lab
MGP4
General
Dry Lab
MGP5
General
Dry Lab
MGP6
General
Dry Lab
MGP7
General
Dry Lab
BO
Organic
Macroscale Synthesis
BO2
Organic
Macroscale Synthesis
IR
BO3
Organic
Macroscale Synthesis
IR
H NMR
BO4
Organic
Macroscale Synthesis
IR
H NMR
C NMR
BO5
Organic
Macroscale Synthesis
Distillation
BO6
Organic
Macroscale Synthesis
Distillation
IR
BO7
Organic
Macroscale Synthesis
Distillation
IR
H NMR
BO8
Organic
Macroscale Synthesis
Distillation
IR
H NMR
C NMR
BV
Organic
Macroscale Synthesis
Melting Point
BV2
Organic
Macroscale Synthesis
Melting Point
IR
BV3
Organic
Microscale Synthesis
Melting Point
BV4
Organic
Microscale Synthesis
Melting Point
IR
NAS
Organic
Macroscale Synthesis
Melting Point
NAS2
Organic
Macroscale Synthesis
Melting Point
IR
NAS3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
NAS4
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
NAS12
Organic
Microscale Synthesis
Melting Point
NAS10
Organic
Microscale Synthesis
Melting Point
IR
NAS9
Organic
Microscale Synthesis
Melting Point
IR
H NMR
NAS8
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
NAS11
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
NAS7
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
NAS6
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
H NMR
NAS5
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
H NMR
C NMR
NS
Organic
Macroscale Synthesis
Melting Point
NS4
Organic
Macroscale Synthesis
Melting Point
IR
NS3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
NS2
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
NS11
Organic
Microscale Synthesis
Melting Point
NS7
Organic
Microscale Synthesis
Melting Point
IR
NS6
Organic
Microscale Synthesis
Melting Point
IR
H NMR
NS5
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
NS12
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
NS10
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
NS9
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
H NMR
NS8
Organic
Microscale Synthesis
Microwave Reaction
Melting Point
IR
H NMR
C NMR
EAS
Organic
Macroscale Synthesis
Melting Point
EAS2
Organic
Microscale Synthesis
Melting Point
IR
H NMR
EAS23
Organic
Microscale Synthesis
IR
E
Organic
Macroscale Synthesis
E2
Organic
Macroscale Synthesis
IR
E3
Organic
Macroscale Synthesis
IR
H NMR
E4
Organic
Macroscale Synthesis
IR
H NMR
C NMR
TB
Organic
Macroscale Synthesis
Melting Point
TB2
Organic
Macroscale Synthesis
Melting Point
IR
TB3
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
TB4
Organic
Macroscale Synthesis
Melting Point
IR
H NMR
C NMR
TB5
Organic
Microscale Synthesis
Melting Point
TB6
Organic
Microscale Synthesis
Melting Point
IR
TB7
Organic
Microscale Synthesis
Melting Point
IR
H NMR
TB8
Organic
Microscale Synthesis
Melting Point
IR
H NMR
C NMR
CP
General
TC
General
using hexane
TC2
General
using methanol
CA
General
Intro
GOB
CA2
General
Intro
GOB
BX
General
339 records
Summary
Summary
Summary
Summary
Summary
Summary
Summary
Summary
Summary
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