課程大綱 Syllabus |
學生學習目標 Learning Objectives |
單元學習活動 Learning Activities |
學習成效評量 Evaluation |
備註 Notes |
序 No. | 單元主題 Unit topic |
內容綱要 Content summary |
1 | Molecular Formula and What can be Learned from them |
1. Elemental analysis and calculation
2. Determination of molecular mass
3. Molecular formula
4. Index of hydrogen deficiency
5. The rule of thirteen |
有機分析化學基礎概念學習 |
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2 | Molecular Formula and What can be Learned from them |
1. Elemental analysis and calculation
2. Determination of molecular mass
3. Molecular formula
4. Index of hydrogen deficiency
5. The rule of thirteen |
有機分析化學基礎概念學習 |
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3 | Infrared Spectroscopy |
1. The infrared absorption process
2. The modes of stretching and bending
3. Bond properties and absorption trends
4. The infrared spectrometer
5. How to approach the analysis of a spectrum |
學習如何以紅外線光譜分析化合物官能基 |
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4 | Infrared Spectroscopy |
1. The infrared absorption process
2. The modes of stretching and bending
3. Bond properties and absorption trends
4. The infrared spectrometer
5. How to approach the analysis of a spectrum |
學習如何以紅外線光譜分析化合物官能基 |
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5 | Infrared Spectroscopy |
1. The infrared absorption process
2. The modes of stretching and bending
3. Bond properties and absorption trends
4. The infrared spectrometer
5. How to approach the analysis of a spectrum |
學習如何以紅外線光譜分析化合物官能基 |
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6 | Infrared Spectroscopy |
1. The infrared absorption process
2. The modes of stretching and bending
3. Bond properties and absorption trends
4. The infrared spectrometer
5. How to approach the analysis of a spectrum |
學習如何以紅外線光譜分析化合物官能基 |
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7 | Infrared Spectroscopy |
1. The infrared absorption process
2. The modes of stretching and bending
3. Bond properties and absorption trends
4. The infrared spectrometer
5. How to approach the analysis of a spectrum |
學習如何以紅外線光譜分析化合物官能基 |
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8 | Infrared Spectroscopy |
1. The infrared absorption process
2. The modes of stretching and bending
3. Bond properties and absorption trends
4. The infrared spectrometer
5. How to approach the analysis of a spectrum |
學習如何以紅外線光譜分析化合物官能基 |
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9 | 期中考 |
期中考 |
期中考 |
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10 | 1H NMR Spectroscopy |
1. Basic concepts
2. The mechanism of resonance
3. The chemical shift and shielding
4. Local diamagnetic shielding
5. Magnetic anisotropy
6. Spin-spin splitting
7. Survey of typical proton NMR absorption by type of compound |
學習如何以氫核磁共振光譜分析化合物結構 |
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11 | 1H NMR Spectroscopy |
1. Basic concepts
2. The mechanism of resonance
3. The chemical shift and shielding
4. Local diamagnetic shielding
5. Magnetic anisotropy
6. Spin-spin splitting
7. Survey of typical proton NMR absorption by type of compound |
學習如何以氫核磁共振光譜分析化合物結構 |
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12 | 1H NMR Spectroscopy |
1. Basic concepts
2. The mechanism of resonance
3. The chemical shift and shielding
4. Local diamagnetic shielding
5. Magnetic anisotropy
6. Spin-spin splitting
7. Survey of typical proton NMR absorption by type of compound |
學習如何以氫核磁共振光譜分析化合物結構 |
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13 | 1H NMR Spectroscopy |
1. Basic concepts
2. The mechanism of resonance
3. The chemical shift and shielding
4. Local diamagnetic shielding
5. Magnetic anisotropy
6. Spin-spin splitting
7. Survey of typical proton NMR absorption by type of compound |
學習如何以氫核磁共振光譜分析化合物結構 |
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14 | Carbon-13 NMR Spectra |
1. Carbon-13 NMR shifts
2. Proton-decoupled carbon-13 spectra
3. Nuclear overhauser enhancement (NOE)
4. A quick dip into DEPT
5. Some sample spectra |
學習如何以碳-13核磁共振光譜分析化合物結構 |
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15 | Mass Spectrometry |
1. The mass spectrum
2. Determination of molecular weight
3. Determination of molecular formula
4. Some fragmentation patterns |
學習如何以質譜分析化合物結構 |
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16 | Compound analysis |
total analysis for experimental data |
學習如何分析與判斷未知物的結構 |
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17 | Compound analysis |
total analysis for experimental data |
學習如何分析與判斷未知物的結構 |
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18 | 期末考 |
期末考 |
期末考 |
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