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相关概念视频

Thermal expansion and Thermal stress: Problem Solving01:27

Thermal expansion and Thermal stress: Problem Solving

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San Francisco's Golden Gate Bridge is exposed to temperatures ranging from -15 °C to 40 °C. At its coldest, the main span of the bridge is 1275 m long. Assuming that the bridge is made entirely of steel, what is the change in its length between these temperatures?
To solve the problem, first, identify the known and unknown quantities. The initial length (L) of the bridge is 1275 m, the coefficient of linear expansion (α) for steel is 12 x 10-6/°C, and the change in...
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Thermal Stress01:09

Thermal Stress

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If the temperature of an object is changed while it is prevented from expanding or contracting, the object is subjected to stress. The stress is compressive if the object expands in the absence of constraint and tensile if it contracts. This stress resulting from temperature change is known as thermal stress. It can be quite large and can cause damage. To avoid this stress, engineers may design components so they can expand and contract freely. For instance, on highways, gaps are deliberately...
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Heating and Cooling Curves02:44

Heating and Cooling Curves

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When a substance—isolated from its environment—is subjected to heat changes, corresponding changes in temperature and phase of the substance is observed; this is graphically represented by heating and cooling curves.
For instance, the addition of heat raises the temperature of a solid; the amount of heat absorbed depends on the heat capacity of the solid (q = mcsolidΔT). According to thermochemistry, the relation between the amount of heat absorbed or released by a substance, q, and its...
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Thermal Strain01:19

Thermal Strain

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Thermal strain is a concept that arises when we consider how temperature changes affect structures. Unlike the conventional assumption that structures remain constant under load, real-world scenarios often involve temperature fluctuations that can significantly impact these structures. Consider a homogeneous rod with a uniform cross-section resting freely on a flat horizontal surface. If the rod's temperature increases, the rod elongates. This elongation is proportional to the temperature...
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Temperature and Thermal Equilibrium01:11

Temperature and Thermal Equilibrium

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Heat and temperature are essential concepts for everyone every day. The study of heat and temperature is part of an area of physics known as thermodynamics. It is not always easy to distinguish heat and temperature.
The concept of temperature has evolved from the common concepts of hot and cold. The scientific definition of temperature explains more than just our sense of hot and cold. Temperature is operationally defined as the quantity measured with a thermometer. Furthermore, temperature is...
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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...
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Updated: Sep 17, 2025

Thermal Limits Determination for Zooplankton Using a Heat Block
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一个框架来建模整个生命周期的热负荷灵敏度.

Pieter A Arnold1, Daniel W A Noble1, Adrienne B Nicotra1

  • 1Division of Ecology and Evolution, Research School of Biology, The Australian National University, Canberra, Australian Capital Territory, Australia.

Global change biology
|July 3, 2025
PubMed
概括
此摘要是机器生成的。

新的热负荷灵敏度 (TLS) 框架将热暴露与损伤和修复动态相结合,以预测物种对气候变暖的脆弱性. 这种方法增强了对各种生物体和生命阶段的热应激反应的理解.

关键词:
临界热极限是指临界的热极限.热负荷加热负载的热量热应激是一种热应激.热死亡时间 热死亡时间热生育能力的极限是温度.热敏度 热敏度 热敏度 热敏度热承受能力 热承受能力热的脆弱性 热的脆弱性

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科学领域:

  • 生态生态学 生态生态学
  • 生理学 生理学 生理学
  • 气候变化生物学 气候变化生物学

背景情况:

  • 预测物种对气候变暖的脆弱性需要了解自然环境中的热应激影响.
  • 当前的生理学指标往往忽视了自然暴露于热量的模式,限制了脆弱性评估.

研究的目的:

  • 引入热负荷灵敏度 (TLS) 框架,将生物物理暴露与生理损伤和修复动态相结合.
  • 提供一种方法来评估热应激对生物体的次致命影响.

主要方法:

  • 开发了热负荷灵敏度 (TLS) 框架,扩展了热死亡时间 (TDT) 模型.
  • 生物物理学的综合原则用于暴露量化和损伤/修复动态的生理学.
  • 使用案例研究和模拟示例用于框架应用.

主要成果:

  • 该TLS框架解开了影响热应力反应的损害积累和修复过程.
  • 证明了框架在评估分类,本体和模块化生物体的热敏感性方面的实用性.
  • 突出了温度和多种压力因素的整合.

结论:

  • TLS框架提供了一种更全面的方法来理解和预测热脆弱性.
  • 确定了研究机会,以改进生理测量和改善各种规模的预测.
  • 强调需要在气候变化脆弱性评估中采用综合方法.