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Sound as Pressure Waves01:17

Sound as Pressure Waves

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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...
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Concept of Pressure at a Point01:15

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The concept of pressure at a point in a fluid establishes that pressure within a fluid is uniform in all directions at a specific location. This uniformity occurs because fluid molecules exert force evenly across any point due to their random motion and continuous collisions within the fluid. Pressure at a point is determined by the surrounding fluid molecules and is influenced by factors like depth and density, rather than by shape or orientation.
In a fluid at rest, pressure acts equally in...
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Pressure of Fluids01:14

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There are many examples of pressure in fluids in everyday life, such as in relation to blood (high or low blood pressure) and in relation to weather (high- and low-pressure weather systems). A given force can have a significantly different effect, depending on the area over which the force is exerted. For instance, a force applied to an area of 1 mm2 has a pressure that is 100 times greater than the same force applied to an area of 1 cm2. That's why a sharp needle is able to poke through...
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Dalton's Law of Partial Pressure01:11

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The partial pressure of a gas is a measure of the thermodynamic activity of the gas's molecules. The pressure that a gas would create if it occupied the total volume available is called the gas's partial pressure. If two or more gases are mixed together in a container, the molecules move randomly and collide with each other, causing them to reach thermal equilibrium. When the gases have the same temperature, their molecules have the same average kinetic energy. Thus, each gas obeys the...
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Fluid Pressure01:14

Fluid Pressure

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In mechanical engineering, fluid pressure plays a critical role in designing systems that utilize liquid flow, such as hydraulic systems, pumps, and valves. When designing these systems, engineers must ensure they can withstand the forces created by fluid pressure to avoid damage or failure.
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Pressure Variation in a Fluid at Rest01:11

Pressure Variation in a Fluid at Rest

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In a fluid at rest, the pressure at any point beneath the fluid surface depends solely on the depth, not on the container's shape or size. This principle, known as hydrostatic pressure, arises because, in stationary fluids, there is no acceleration, meaning the forces within the fluid balance out. Only vertical forces, caused by the weight of the fluid above, contribute to pressure changes with depth.
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Related Experiment Video

Updated: Jan 6, 2026

High-Sensitivity Nuclear Magnetic Resonance at Giga-Pascal Pressures: A New Tool for Probing Electronic and Chemical Properties of Condensed Matter under Extreme Conditions
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High-Sensitivity Nuclear Magnetic Resonance at Giga-Pascal Pressures: A New Tool for Probing Electronic and Chemical Properties of Condensed Matter under Extreme Conditions

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Quantum for pressure.

Jay Hendricks1

  • 1Thermodynamic Metrology Group at the National Institute of Standards and Technology (NIST), Physical Measurement Laboratory, Gaithersburg, Maryland 20899, USA.

Nature Physics
|October 4, 2019
PubMed
Summary
This summary is machine-generated.

Ongoing research aims to redefine the pascal, potentially eliminating the need for mercury-barometer pressure standards. This work focuses on improving pressure measurement realization and dissemination.

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Area of Science:

  • Metrology
  • Physical Chemistry

Background:

  • Traditional pressure standards rely on mercury barometers, which pose environmental and safety concerns.
  • The pascal is the SI unit of pressure, but its practical realization requires precise calibration methods.

Purpose of the Study:

  • To describe ongoing efforts to improve the realization and dissemination of the pascal.
  • To outline the potential to supersede mercury-barometer pressure standards with advanced methods.

Main Methods:

  • The abstract does not specify methods, but implies advancements in pressure measurement techniques.
  • Focus on the practical application and widespread adoption of new standards.

Main Results:

  • The described work is expected to lead to the elimination of mercury-barometer pressure standards.
  • Advancements in pascal realization will enhance pressure measurement accuracy and consistency.

Conclusions:

  • The transition away from mercury barometers is a significant step in metrology.
  • Improved methods for realizing and disseminating the pascal will benefit scientific and industrial applications.