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Radiation: Applications01:17

Radiation: Applications

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The average temperature of Earth is the subject of much current discussion. Earth is in radiative contact with both the Sun and dark space; it receives almost all its energy from the radiation of the Sun and reflects some of it into outer space. Dark space is very cold, about 3 K, so Earth radiates energy into it. For instance, heat transfer occurs from soil and grasses, the rate of which can be so rapid that frost can occur on clear summer evenings, even in warm latitudes.
The average...
1.8K
Detection of Black Holes01:10

Detection of Black Holes

1.7K
Although black holes were theoretically postulated in the 1920s, they remained outside the domain of observational astronomy until the 1970s.
Their closest cousins are neutron stars, which are composed almost entirely of neutrons packed against each other, making them extremely dense. A neutron star has the same mass as the Sun but its diameter is only a few kilometers. Therefore, the escape velocity from their surface is close to the speed of light.
Not until the 1960s, when the first neutron...
1.7K
Phase Transitions: Melting and Freezing02:39

Phase Transitions: Melting and Freezing

11.7K
Heating a crystalline solid increases the average energy of its atoms, molecules, or ions, and the solid gets hotter. At some point, the added energy becomes large enough to partially overcome the forces holding the molecules or ions of the solid in their fixed positions, and the solid begins the process of transitioning to the liquid state or melting. At this point, the temperature of the solid stops rising, despite the continual input of heat, and it remains constant until all of the solid is...
11.7K
Atomic Spectroscopy: Effects of Temperature01:27

Atomic Spectroscopy: Effects of Temperature

1.2K
Atomization, converting samples into gas-phase atoms and ions, is essential for atomic spectroscopy. The flame temperature required for atomization affects the efficiency of the atomic spectroscopic methods by increasing the atomization efficiency and the relative population of the excited and ground states.
At thermal equilibrium, the relative populations of excited and ground state atoms can be estimated using the Maxwell–Boltzmann distribution. For example, an increase in temperature...
1.2K
Heating and Cooling Curves02:44

Heating and Cooling Curves

23.2K
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,...
23.2K
Mechanism of heat transfer01:19

Mechanism of heat transfer

2.3K
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...
2.3K

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相关实验视频

Updated: May 3, 2026

Cooling an Optically Trapped Ultracold Fermi Gas by Periodical Driving
11:21

Cooling an Optically Trapped Ultracold Fermi Gas by Periodical Driving

Published on: March 30, 2017

7.1K

寒冷的暗物质加热起来.

Andrew Pontzen1, Fabio Governato2

  • 11] Department of Physics and Astronomy, University College London, London WC1E 6BT, UK [2] Oxford Astrophysics, Denys Wilkinson Building, Keble Road, Oxford OX1 3RH, UK [3] Balliol College, University of Oxford, Broad Street, Oxford OX1 3BJ, UK.

Nature
|February 14, 2014
PubMed
概括

宇宙学的宇宙学是什么?

科学领域:

  • 宇宙学的宇宙学是什么?
  • 天体物理学 天体物理学
  • 粒子物理学 粒子物理学

背景情况:

  • 宇宙学的标准模型 (ΛCDM) 假定暗能量和冷暗物质占宇宙质能量的95%.
  • ΛCDM模型预测密集的暗物质在银河系中心"合",这与低密度"核心"的观测相矛盾.

研究的目的:

  • 为了使LCDM模型与观测到的银河系中心的暗物质分布相协调.
  • 为了研究重子物质在塑造暗物质形状中的作用.

主要方法:

  • 包括气体和恒星的影响,以前被认为是被动元件.
  • 模拟由重子物质引起的引力潜力波动.

主要成果:

  • 气体和恒星积极向冷暗物质注入热能.
  • 这种能量注入解释了银河系中观察到的暗物质的低中心密度,解决了"核心-"问题.

结论:

  • 对于准确的暗物质分布预测来说,重子物质的影响至关重要.
  • 观测到的银河系暗物质"核心"可以在 ΛCDM 框架内通过包括微子反来解释.

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