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Shock Waves01:16

Shock Waves

2.1K
While deriving the Doppler formula for the observed frequency of a sound wave, it is assumed that the speed of sound in the medium is greater than the source's speed through it. When this condition is breached, a shock wave occurs.
When the source's speed approaches the speed of sound, constructive interference between successive wavefronts emitted by the source occurs immediately behind it. Initially, scientists believed that this constructive interference would result in such high...
2.1K
Energy Carried By Electromagnetic Waves01:22

Energy Carried By Electromagnetic Waves

3.1K
Anyone who has used a microwave oven knows there is energy in electromagnetic waves. Sometimes, this energy is obvious, such as in the summer sun's warmth. At other times, it is subtle, such as the unfelt energy of gamma rays, which can destroy living cells. Electromagnetic waves bring energy into a system through their electric and magnetic fields. These fields can exert forces and move charges in the system and, thus, do work on them. However, there is energy in an electromagnetic wave,...
3.1K
Plane Electromagnetic Waves I01:30

Plane Electromagnetic Waves I

3.7K
The existence of combined electric and magnetic fields that propagate through space as electromagnetic (EM) waves is the most significant prediction of Maxwell's equations. As Maxwell's equations hold in free space, the predicted electromagnetic waves do not require a medium for their propagation. An EM wave comprises an electric field, defined as the force per charge on a stationary charge, and a magnetic field, which is the force per charge on a moving charge.
The EM field is assumed...
3.7K
Sound as Pressure Waves01:17

Sound as Pressure Waves

2.5K
Sound waves, which are longitudinal waves, can be modeled as the displacement amplitude varying as a function of the spatial and temporal coordinates. As a column of the medium is displaced, its successive columns are also displaced. As the successive displacements differ relatively, a pressure difference with the surrounding pressure is created. The gauge pressure varies across the medium.
The pressure fluctuation depends on the difference in displacements between the successive points in the...
2.5K
Density00:56

Density

14.8K
Density is an important characteristic of substances, crucial in determining whether an object sinks or floats in a fluid. Its SI unit is kg/m3, and its cgs unit is g/cm3. The density of an object helps in identifying its composition, and also reveals information about the phase of the matter and its substructure. The densities of liquids and solids are roughly comparable, consistent with the fact that their atoms are in close contact. However, gases have much lower densities than liquids and...
14.8K
Distribution of Molecular Speeds01:27

Distribution of Molecular Speeds

4.0K
The motion of molecules in a gas is random in magnitude and direction for individual molecules, but a gas of many molecules has a predictable distribution of molecular speeds. This predictable distribution of molecular speeds is known as the Maxwell-Boltzmann distribution. The distribution of molecular speeds in liquids is comparable to that of gases but not identical and can help to understand the phenomenon of the boiling and vapor pressure of a liquid. Consider that a molecule requires a...
4.0K

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相关实验视频

Updated: Jul 25, 2025

Experimental Investigation of Secondary Flow Structures Downstream of a Model Type IV Stent Failure in a 180° Curved Artery Test Section
11:00

Experimental Investigation of Secondary Flow Structures Downstream of a Model Type IV Stent Failure in a 180° Curved Artery Test Section

Published on: July 19, 2016

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穿过平面冲击波的热密度行为.

Rosa M Velasco1, Francisco J Uribe1

  • 1Department of Physics, Universidad Autónoma Metropolitana, Av. San Rafael Atlixco 186, Iztapalapa, México City 09340, Mexico.

Entropy (Basel, Switzerland)
|June 28, 2023
PubMed
概括
此摘要是机器生成的。

调查非平衡热力学,这项研究检查了波尔兹曼平衡方程对于冲击波. 它以Grad计算局部平衡假设 (LEH) 的纠正.

关键词:
的密度 的密度当地平衡假设局部平衡假设冲击波是一种冲击波.

更多相关视频

Blast Quantification Using Hopkinson Pressure Bars
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Blast Quantification Using Hopkinson Pressure Bars

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Conducting Elevated Temperature Normal and Combined Pressure-Shear Plate Impact Experiments Via a Breech-end Sabot Heater System
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Conducting Elevated Temperature Normal and Combined Pressure-Shear Plate Impact Experiments Via a Breech-end Sabot Heater System

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相关实验视频

Last Updated: Jul 25, 2025

Experimental Investigation of Secondary Flow Structures Downstream of a Model Type IV Stent Failure in a 180° Curved Artery Test Section
11:00

Experimental Investigation of Secondary Flow Structures Downstream of a Model Type IV Stent Failure in a 180° Curved Artery Test Section

Published on: July 19, 2016

11.7K
Blast Quantification Using Hopkinson Pressure Bars
09:41

Blast Quantification Using Hopkinson Pressure Bars

Published on: July 5, 2016

9.1K
Conducting Elevated Temperature Normal and Combined Pressure-Shear Plate Impact Experiments Via a Breech-end Sabot Heater System
10:52

Conducting Elevated Temperature Normal and Combined Pressure-Shear Plate Impact Experiments Via a Breech-end Sabot Heater System

Published on: August 7, 2018

8.6K

科学领域:

  • 热力学是一种热力学.
  • 流体动力学 流体动力学
  • 统计力学 统计力学

背景情况:

  • 局部平衡假设 (LEH) 是至关重要的,但在非平衡热力学中经常被假定.
  • 在极端的非平衡条件下,理解密度行为是具有挑战性的.

研究的目的:

  • 计算一个平面冲击波的博尔兹曼平衡方程.
  • 为了评估格拉德的13次近似和纳维埃-斯托克斯-弗里埃方程的性能.
  • 在Grad的框架内确定和分析LEH的纠正.

主要方法:

  • 将博尔兹曼平衡方程应用于平面冲击波场景.
  • 对非平衡系统的格拉德13时近似的分析.
  • 在冲击波的背景下检查纳维埃-斯托克斯-弗里埃方程.

主要成果:

  • 该研究计算了平面冲击波的平衡方程.
  • 评估了格拉德13秒近似和纳维埃-斯托克斯-弗里耶方程的性能.
  • 在Grad的方法中对局部平衡假设的纠正得到了推导和讨论.

结论:

  • 博尔兹曼平衡方程为分析诸如冲击波之类的非平衡系统提供了一个框架.
  • 在极端的不平衡情况中,LEH可能需要进行校正,如Grad的近似值所示.
  • 这项研究强调了评估非平衡热力学假设的重要性.