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NMR Spectroscopy: Chemical Shift Overview01:15

NMR Spectroscopy: Chemical Shift Overview

3.0K
The position of the absorption signal of a sample is reported relative to the position of the signal of tetramethylsilane (TMS), which is added as an internal reference while recording spectra. The difference between the absorption frequencies of the sample and TMS (in Hz) is divided by the spectrometer operating frequency (in MHz) to obtain a dimensionless quantity called the chemical shift. It is reported on the δ (delta) scale and expressed in parts per million.
For instance, the proton...
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¹H NMR Chemical Shift Equivalence: Homotopic and Heterotopic Protons01:03

¹H NMR Chemical Shift Equivalence: Homotopic and Heterotopic Protons

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Protons in identical electronic environments within a molecule are chemically equivalent and have the same chemical shift. The replacement test is a useful tool to identify chemical equivalence and predict NMR spectra. A substituent replaces each of the protons being examined and the resulting molecules are compared. If the same molecule is obtained, the protons are equivalent or homotopic. Replacement of any hydrogens in ethane by chlorine yields chloroethane because all six protons are...
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¹H NMR Signal Multiplicity: Splitting Patterns01:13

¹H NMR Signal Multiplicity: Splitting Patterns

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When protons A and X are coupled, their nuclear spin energy levels are slightly modified. This is because the energy required to excite proton A to a spin state parallel to proton X is slightly different from the energy required for it to become anti-parallel to spin X. Consequently, there are two possible excitation frequencies for A (A1 and A2), depending on the spin state of X, and vice versa. The mutual nature of coupling implies that the difference between frequencies A1 and A2, indicated...
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Cooperative Allosteric Transitions01:58

Cooperative Allosteric Transitions

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Cooperative Allosteric Transitions01:58

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Cooperative allosteric transitions can occur in multimeric proteins, where each subunit of the protein has its own ligand-binding site. When a ligand binds to any of these subunits, it triggers a conformational change that affects the binding sites in the other subunits; this can change the affinity of the other sites for their respective ligands. The ability of the protein to change the shape of its binding site is attributed to the presence of a mix of flexible and stable segments in the...
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Cooperative Allosteric Transitions01:58

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Atomic Scale Structural Studies of Macromolecular Assemblies by Solid-state Nuclear Magnetic Resonance Spectroscopy
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在音调 (链) 转移中出现反复的模式.

Cathryn Yang1, Pittayawat Pittayaporn2, James Kirby3

  • 1SIL International, 7500 W Camp Wisdom, Dallas, 75236, TX, USA.

Linguistics vanguard : multimodal online journal
|January 7, 2026
PubMed
概括
此摘要是机器生成的。

连锁和非连锁的二次性音调转移都表现出方向约束. 语音变化的重复模式表明语音接地在语音的产生和感知.

关键词:
连锁转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链转移链约束 问题 限制语音偏差 语音偏差 语音偏差 语音偏差声音的变化 声音的变化一个声音的声音的声音的声音.

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科学领域:

  • 语言学的语言学.
  • 语音学 语音学 语音学
  • 历史语言学 历史语言学

背景情况:

  • 半慢性音调转移是音调系统随着时间的推移而发生的变化.
  • 链式变化涉及一系列相关的音调变化,而非链式变化则是孤立的变化.
  • 了解方向约束可以阐明驱动语言演变的机制.

研究的目的:

  • 为了研究对二次性音色链转移的方向约束.
  • 为了确定这些约束对非链式轮班的适用性.
  • 识别不同语言家族的音调变化的反复模式.

主要方法:

  • 从12种中西藏,克拉戴,奥斯陆尼西亚和奥托曼语中对28种链转变进行比较分析.
  • 与来自54种亚洲语音语言的118个非链式转换 (包括合并) 进行比较.
  • 对音调变化的频率和模式的统计分析.

主要成果:

  • 在链转变和频繁的非链转变之间发现了显著的重叠.
  • 在两种类型的变化中观察到的反复出现的模式包括向右的音调对齐和特定的轮修改.
  • 下降的音调往往变得更高,而上升的音调往往变得更低.

结论:

  • 半慢性音调的变化不是随机的,而是遵循可预测的,语音接地模式.
  • 在语音产生和感知方面,表达和认知偏差可能会限制语音演变的方向.
  • 这些发现支持了连接式语音中的同步音调变化与双重音调变化之间的联系.