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¹H NMR of Labile Protons: Temporal Resolution01:10

¹H NMR of Labile Protons: Temporal Resolution

1.7K
Protons bonded to heteroatoms such as nitrogen and oxygen exhibit a range of chemical shift values. This is due to the varying degree of hydrogen bonding between the proton and the heteroatom in other molecules. The extent of hydrogen bonding affects the electron density around the proton, thereby giving different chemical shift values for the protons in the proton NMR spectrum.
The –OH proton in alcohols typically appears in the range of δ 2 to 5 ppm but can vary depending on the specific...
1.7K
Assessing Body Temperature - Temporal Artery01:19

Assessing Body Temperature - Temporal Artery

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Here is a stepwise guide to assessing the body temperature at the temporal artery using a temporal artery thermometer
Step 1: Perform hand hygiene and don a fresh pair of gloves to prevent cross-infection and ensure patient safety.
Step 2: Explain the procedure to the patient to establish trust. Clear communication establishes trust with the patient, ensures they understand what to expect, promotes cooperation, and enhances comfort during the procedure.  
Step 3: Assess the patient's...
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¹H NMR of Conformationally Flexible Molecules: Temporal Resolution00:52

¹H NMR of Conformationally Flexible Molecules: Temporal Resolution

1.3K
At room temperature, the chair conformer of cyclohexane undergoes rapid ring flipping between two equivalent chair conformers at a rate of approximately 105 times per second. These two chair conformers are in equilibrium. The rapid ring flipping results in the interconversion of the axial proton to an equatorial proton and an equatorial to the axial proton. Such interconversions are too rapid and cannot be detected on the NMR timescale. Hence, the NMR spectrometer cannot distinguish between the...
1.3K
Preparation of Amides01:29

Preparation of Amides

4.0K
Amides are synthesized by treating carboxylic acids with amines in the presence of dehydrating agents like dicyclohexylcarbodiimide (DCC).
The DCC-promoted synthesis of amides begins with the protonation of DCC by carboxylic acid. The protonation makes it a better acceptor. Next, the addition of carboxylate to the protonated carbodiimide gives a reactive acylating agent.
Subsequently, the amine acts as a nucleophile that attacks the acylating agent to form a tetrahedral intermediate. In the...
4.0K
Preparation of Nitriles01:12

Preparation of Nitriles

2.7K
One of the common methods to prepare nitriles is the dehydration of amides. This method requires strong dehydrating agents like phosphorous pentoxide or boiling acetic anhydride for converting amides to nitriles. Another reagent namely, thionyl chloride also accomplishes the dehydration of amides, where amide acts as a nucleophile. The first step of the mechanism involves the nucleophilic attack by the amide on the thionyl chloride to form an intermediate. In the next step, the electron pairs...
2.7K
Preparation of Epoxides03:00

Preparation of Epoxides

9.3K
Overview
Epoxides result from alkene oxidation, which can be achieved by a) air, b) peroxy acids, c) hypochlorous acids, and d) halohydrin cyclization.
Epoxidation with Peroxy Acids
Epoxidation of alkenes via oxidation with peroxy acids involves the conversion of a carbon–carbon double bond to an epoxide using the oxidizing agent meta-chloroperoxybenzoic acid, commonly known as MCPBA. Since the O–O bond of peroxy acids is very weak, the addition of electrophilic oxygen of peroxy acids to...
9.3K

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時間的準備の統合:時間的準備課題(TEP-Task)

Mariagrazia Capizzi1,2, Lucie Attout3, Giovanna Mioni4

  • 1Mind, Brain and Behavior Research Center (CIMCYC), University of Granada, Campus of Cartuja, 18011, Granada, Spain. mgcapizzi@ugr.es.

Behavior research methods
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まとめ
この要約は機械生成です。

この研究では、単一セッションで前景、順序、時間的オリエンティング、リズム効果を含む複数の時間的準備効果を効率的に測定するための新しいツールである時間的準備課題(TEP-Task)を紹介する。

キーワード:
聴覚リズム前景順序効果時間的オリエンティング視覚リズム

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科学分野:

  • 認知心理学
  • 神経科学
  • 人間の行動

背景:

  • 環境イベントを予期することは反応を高めます。
  • 時間的準備は、前景、時間的オリエンティング、およびリズム課題を通じて研究されます。
  • これらの効果のための統一された課題は現在不足しています。

研究 の 目的:

  • 時間的準備を評価するための統一された課題を開発すること。
  • 単一セッションで前景、順序、時間的オリエンティング、およびリズム効果を測定すること。
  • 時間的準備課題(TEP-Task)を導入すること。

主な方法:

  • 時間的準備課題(TEP-Task)を考案しました。
  • 単一の35分間のテストセッション用に設計されています。
  • 複数の時間的準備効果を測定することを目的としています。

主要な成果:

  • TEP-Taskは複数の時間的準備指標を統合することに成功しました。
  • 単一セッション内で包括的な評価を提供します。
  • 多様な時間的準備効果を測定するための実現可能性を示します。

結論:

  • TEP-Taskは、時間的準備の研究に時間効率の良い方法を提供します。
  • 前景、順序、時間的オリエンティング、およびリズム効果を同時に評価できます。
  • TEP-Taskは、多様な研究集団および実験的ニーズに適しています。