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If you are enrolled in courses delivered in traditional or hybrid modalities, you will be expected to attend face-to-face instruction as scheduled.
| Semester: | Fall 2025 |
| Number: | 0106-253-011 |
| Instructor: | TBA |
| Days: | Tuesday 12:15 pm - 5:15 pm |
| Note: | Traditional In-Person Class |
| Location: | Garden City |
| Credits: | 2 |
| Notes: |
Student Must Obtain A Minimum Grade Of C- In All Prerequisite Courses |
| Course Materials: | View Text Books |
| Related Syllabi: |
Joseph Landesberg for
Fall 2013* Andrew Lichtman for Fall 2021* |
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*Attention Students: Please note that the syllabi available for your view on these pages are for example only. The instructors and requirements for each course are subject to change each semester. If you enroll in a particular course, your instructor and course outline may differ from what is presented here. |
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| Description: |
Students carry out reactions that demonstrate techniques and the synthesis and conversion of the more important principal groups of organic compounds. There is one five hour laboratory. |
| Learning Goals: |
• Demonstrate laboratory safety by following proper procedures• Compile a scientifically correct notebook byo Writing balanced reaction schemeso Converting between names and structures for the chemicals used during the semestero Computing the limiting reagent, theoretical yield, percent yield and percent recoveryo Listing physical constants and safety hazards for any chemical using appropriate books or online sources such as MSDS, Merck Index and Aldrich Handbook• Demonstrate organic chemistry reaction techniques byo Setting up and using a reflux apparatuso Performing an esterification reaction two different wayso Setting up and using an appropriate distillation apparatus (simple, fractional and steam)o Setting up and performing a vacuum filtration• Predict what solvents a compound will be soluble in and test the predictions by experimentation• Determine the appropriate solvent to extract and separate a compound from a mixture byo Predicting the layer (organic or aqueous) a compound will be most soluble in o Predicting and testing whether the organic or aqueous layer is on top• Purify a compound from a crude mixture by o Employing distillation methodso Employing sublimation techniqueso Employing column chromatographic methodso Employing crystallization (or recrystallization) techniques• Test identity and purity of compounds by o Measuring an accurate melting pointo Analyzing samples using the mixed melting point technique• Determine the composition of a mixture by using thin-layer chromatography • Determine the boiling point of a compound by using a distillation apparatus• Identify an organic compound byo Performing gas chromatography and analyzing the spectra for purity and relative identification o Obtaining the optical rotation of a chiral compound using a polarimetero Acquiring an infrared spectrum of a liquid compound and interpreting the spectrao Acquiring a nuclear magnetic resonance spectrum for selected organic compounds and interpreting the spectrum *The learning goals displayed here are those for one section of this course as offered in a recent semester, and are provided for the purpose of information only. The exact learning goals for each course section in a specific semester will be stated on the syllabus distributed at the start of the semester, and may differ in wording and emphasis from those shown here. |
| Prerequisites: | |
| Corequisites: |
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