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Quantifying Heat02:46

Quantifying Heat

54.6K
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...
54.6K
Thermal Stress01:09

Thermal Stress

2.5K
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...
2.5K
Increased Body Temperature01:25

Increased Body Temperature

699
A body temperature above  38°C  (100.4 °F) is known as fever or pyrexia, and a person with fever is termed 'febrile.' Typically, the hypothalamus, a part of the brain that acts as the body's thermostat, regulates body temperature through a thermoregulatory setpoint. It receives signals from cold and warm thermal receptors throughout the body and adjusts the body's temperature accordingly. Fever occurs when this hypothalamic setpoint is altered, usually in...
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Heat Flow and Specific Heat01:12

Heat Flow and Specific Heat

5.5K
Heat is a type of energy transfer that is caused by a temperature difference, and it can change the temperature of an object. Since heat is a form of energy, its SI unit is the joule (J). Another common unit of energy often used for heat is the calorie (cal), which is defined as the energy needed to change the temperature of 1 g of water by 1 °C, specifically between 14.5 °C and 15.5 °C, since the energy needed shows a slight temperature dependence. Another commonly used unit is...
5.5K
Responses to Heat and Cold Stress02:45

Responses to Heat and Cold Stress

13.6K
Every organism has an optimum temperature range within which healthy growth and physiological functioning can occur. At the ends of this range, there will be a minimum and maximum temperature that interrupt biological processes.
13.6K
Mechanism of heat transfer01:19

Mechanism of heat transfer

1.2K
Understanding heat transfer mechanisms is essential for understanding how our bodies maintain balance in different environmental conditions. When the environment is thermoneutral, the body is in a state of balance, neither using nor releasing energy to maintain its core temperature. However, when the environment is not thermoneutral, the body employs four heat transfer mechanisms to maintain homeostasis: conduction, convection, evaporation, and radiation. These mechanisms facilitate heat...
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Updated: Jul 15, 2025

Esophageal Heat Transfer for Patient Temperature Control and Targeted Temperature Management
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Feeling the heat.

Kai Kupferschmidt

    Science (New York, N.Y.)
    |September 28, 2023
    PubMed
    Summary
    This summary is machine-generated.

    Climate warming significantly impacts infectious disease transmission. Understanding these complex links is crucial for public health strategies and disease prevention efforts.

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    Area of Science:

    • Environmental science and epidemiology
    • Climate change research
    • Public health

    Background:

    • Climate warming alters pathogen and vector ecology.
    • Changes in temperature and precipitation patterns influence disease vectors.
    • Extreme weather events can facilitate disease outbreaks.

    Discussion:

    • Complex interactions between climate and infectious diseases require interdisciplinary approaches.
    • Current communication strategies often fail to capture the multifaceted nature of these impacts.
    • Effective dissemination of scientific findings is essential for policy-making.

    Key Insights:

    • Climate change is a significant driver of emerging and re-emerging infectious diseases.
    • Vector-borne diseases, such as malaria and dengue fever, are particularly sensitive to climate shifts.
    • Water-borne pathogens can proliferate under altered hydrological conditions.

    Outlook:

    • Further research is needed to model future disease burdens under various climate scenarios.
    • Enhanced surveillance systems integrating climate data are vital.
    • International collaboration is key to addressing the global threat of climate-sensitive infectious diseases.