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相关概念视频

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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Quantifying Heat02:46

Quantifying Heat

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Thermal Energy Microscopically, thermal energy is the kinetic energy associated with the random motion of atoms and molecules. Temperature is a quantitative measure of “hot” or “cold”, which depends on the amount of thermal energy. When the atoms and molecules in an object are moving or vibrating quickly, they have a higher average kinetic energy (KE) (or higher thermal energy), and the object is perceived as “hot”, or it is described as being at a higher temperature. When the...
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Temperature Measurement Sites01:14

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A thermometer measures body temperature. The common sites for measuring body temperature are the oral cavity, axillary region, temporal artery, and skin surface, such as the forehead, abdomen, and axilla. True core body temperature is assessed in the rectum, tympanic membrane, pulmonary artery, esophagus, and urinary bladder.
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Precipitation Processes01:12

Precipitation Processes

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The experimental conditions in a gravimetric analysis should be optimized to maximize the particle size and purity of the obtained precipitate. Ideally, the concentration of the precipitating reagent should be low with effective stirring to maintain low relative supersaturation for the growth of large crystals. In homogeneous precipitation, the precipitant is slowly generated by a chemical reaction in the solution to avoid local reagent excesses. For example, urea decomposes gradually to...
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Precipitation and Co-precipitation01:17

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Precipitation and coprecipitation methods can be used to separate a mixture of ions in a solution. In qualitative inorganic analysis, ions that form sparingly soluble precipitates with the same reagent are separated based on the differences in solubility products. For example, consider the separation of Cu(II) and Fe(II) ions by precipitation as insoluble sulfides. First, copper(II) sulfide is precipitated by the addition of acidic H2S, where the dissociation of H2S is suppressed. Adding H2S...
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Updated: Jan 18, 2026

A Method of Trigonometric Modelling of Seasonal Variation Demonstrated with Multiple Sclerosis Relapse Data
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通过个人气象站和时空贝叶斯模型改进了高分辨率热暴露评估.

Eva Marquès1, Kyle P Messier1

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GeoHealth
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概括
此摘要是机器生成的。

这项研究引入了一种用于美国城市高分辨率温度绘制的新方法,改进了城市热岛效应评估. 该模型准确地识别温度热点,帮助公共卫生研究热应激.

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空气温度为2米的空气温度贝叶斯的等级模型是贝叶斯的等级模型.在INLA-SPDE中使用.个人气象站个人气象站时间空间时间空间.城市热岛城市热岛

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科学领域:

  • 环境科学 环境科学
  • 城市气候学 城市气候学
  • 地理空间分析的研究.

背景情况:

  • 美国大多数人口生活在城市地区,经历城市热岛 (UHI) 效应.
  • 现有的网格式温度产品缺乏能够捕捉城市内变化的分辨率.

研究的目的:

  • 开发一种以0.01分辨率估计每小时空气温度的方法.
  • 改善美国人口对极端温度的暴露评估.

主要方法:

  • 利用广泛的个人气象站网络来实现城市内部的变化.
  • 采用时空贝叶斯模型与集成嵌套拉普拉斯近似-随机局部微分方程.

主要成果:

  • 在美国的各种案例研究中,实现了1.06的整体根平均平方误差.
  • 确定了以前未被检测到的高颗粒度的温度热点.
  • 在不同气候区和城市景观中证明了模型的适用性.

结论:

  • 开发的模型提供了高分辨率的温度估计,增强了对UHI效应的暴露评估.
  • 高人口密度的社区更容易受到高温和长时间的炎热夜晚的影响.
  • 该模型适用于有关热冷压力对人类健康影响的流行病学研究.