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Related Concept Videos

Mixtures of Gases: Dalton's Law of Partial Pressures and Mole Fractions03:03

Mixtures of Gases: Dalton's Law of Partial Pressures and Mole Fractions

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Unless individual gases chemically react with each other, the individual gases in a mixture of gases do not affect each other’s pressure. Each gas in a mixture exerts the same pressure that it would exert if it were present alone in the container. The pressure exerted by each individual gas in a mixture is called its partial pressure.
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Mixtures of Acids01:19

Mixtures of Acids

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The pH of a solution containing an acid can be determined using its acid dissociation constant and initial concentration. If a solution contains two different acids, then its pH can be determined using one of several methods depending on the relative strength of the acids and their dissociation constants.
In a strong and weak acid mixture, the strong acid dissociates completely and becomes a source of almost all the hydronium ions present in the solution. In contrast, the weak acid shows...
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Mixtures of Acids03:27

Mixtures of Acids

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The pH of a solution containing an acid can be determined using its acid dissociation constant and its initial concentration. If a solution contains two different acids, then its pH can be determined using one of several methods depending upon the relative strength of the acids and their dissociation constants.
A Mixture of a Strong Acid and a Weak Acid
In a mixture of a strong acid and a weak acid, the strong acid dissociates completely and becomes a source of almost all the hydronium ions...
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¹H NMR: Complex Splitting01:13

¹H NMR: Complex Splitting

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A proton M that is coupled to a proton X results in doublet signals for M. However, NMR-active nuclei can be simultaneously coupled to more than one nonequivalent nucleus. When M is coupled to a second proton A, such as in styrene oxide, each peak in the doublet is split into another doublet.
Splitting diagrams or splitting tree diagrams are routinely used to depict such complex couplings. While drawing splitting diagrams, the splitting with the larger coupling constant is usually applied...
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Distillation: Vapor–Liquid Equilibria01:01

Distillation: Vapor–Liquid Equilibria

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Distillation is a separation technique that takes advantage of the boiling point properties of disparate elements in a mixture. To perform distillation, we begin by heating a miscible mixture of two liquids with a significant difference in boiling points (at least 20°C). As the solution heats up and reaches the bubble point of the more volatile component, some molecules of the more volatile component transition into the gas phase and travel upward into the condenser, which is a glass tube...
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Excess Pressure Inside a Drop and a Bubble01:13

Excess Pressure Inside a Drop and a Bubble

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The shape of a small drop of liquid can be considered spherical, neglecting the effect of gravity. This drop can further be considered as two equal hemispherical drops put together due to surface tension. The forces acting on the spherical drop are due to the pressure of the liquid inside the drop, the pressure due to air outside the drop, and the force due to the surface tension acting on the two hemispherical drops.
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Updated: Nov 10, 2025

Induction of Microstreaming by Nonspherical Bubble Oscillations in an Acoustic Levitation System
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Mixed Bubbles in Bose-Bose Mixtures.

P Naidon1, D S Petrov2

  • 1Strangeness Nuclear Physics Laboratory, RIKEN Nishina Centre, Wakō 351-0198, Japan.

Physical Review Letters
|April 2, 2021
PubMed
Summary

We predict a new "mixed-bubble" state in repulsive Bose-Bose mixtures. This state, where mixed-phase bubbles coexist with a pure phase, arises from beyond-mean-field interactions in quantum gases.

Area of Science:

  • Quantum physics
  • Ultracold atomic gases
  • Bose-Bose mixtures

Background:

  • Repulsive Bose-Bose mixtures typically either mix completely or phase separate into distinct pure components.
  • Existing models often rely on mean-field approximations, which may not capture all emergent phenomena.

Purpose of the Study:

  • To predict and characterize a novel mixed-bubble phase in repulsive Bose-Bose mixtures.
  • To identify the physical mechanisms and parameter regimes leading to this new phase.

Main Methods:

  • Theoretical investigation employing beyond-mean-field corrections to standard models.
  • Analysis of the interplay between mean-field interactions and non-quadratic beyond-mean-field terms.
  • Exploration across various dimensions and system parameters.

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Main Results:

  • Prediction of a stable mixed-bubble regime where bubbles of a mixed phase coexist with a pure phase.
  • Identification of unequal masses or coupling constants as key factors driving this phenomenon.
  • Characterization of the parameter space for the mixed-bubble regime in multiple dimensions.

Conclusions:

  • Beyond-mean-field effects are crucial for understanding complex phase behavior in Bose-Bose mixtures.
  • The predicted mixed-bubble regime offers new avenues for experimental exploration in ultracold atomic systems.
  • Findings have implications for controlling and manipulating quantum gases with tailored properties.