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Distribution of Molecular Speeds01:27

Distribution of Molecular Speeds

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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...
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Speed of a Transverse Wave01:13

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The speed of a wave depends on the characteristics of the medium. For example, in the case of a guitar, the strings vibrate to produce the sound. The speed of the waves on the strings and the wavelength determine the frequency of the sound produced. The strings on a guitar have different thicknesses but may be made of similar material. They have different linear densities, and the linear density is defined as the mass per length.
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The Quantum-Mechanical Model of an Atom02:45

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Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra.
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The de Broglie Wavelength02:32

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In the macroscopic world, objects that are large enough to be seen by the naked eye follow the rules of classical physics. A billiard ball moving on a table will behave like a particle; it will continue traveling in a straight line unless it collides with another ball, or it is acted on by some other force, such as friction. The ball has a well-defined position and velocity or well-defined momentum, p = mv, which is defined by mass m and velocity v at any given moment. This is the typical...
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The Pauli Exclusion Principle03:06

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The speed of sound in a gaseous medium depends on various factors. Since gases constitute molecules that are free to move, they are highly compressible. Hence, sound waves travel slowly through gases. Thermodynamics helps us understand the relationship between pressure, volume, and temperature of gases, thus, the speed of sound in an ideal gas can be determined using the laws of thermodynamics. At the same time, Newton's laws of motion and the continuity equation of fluid dynamics also come...
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コンピュータゲームで量子速度の限界を探る

Jens Jakob W H Sørensen1, Mads Kock Pedersen1, Michael Munch1

  • 1Department of Physics and Astronomy, Aarhus University, Aarhus, Denmark.

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|April 15, 2016
PubMed
まとめ
この要約は機械生成です。

複雑な量子コンピューティングの問題に 人間の直感を活用します プレイヤーは従来の数学的方法を上回る最適化戦略を発見し,量子物理学の研究を進めます.

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科学分野:

  • 量子物理学
  • 量子コンピューティング
  • 計算上の複雑さ

背景:

  • 人間は直感的で低次元の戦略を用いて 複雑な問題を解決します
  • 市民科学とゲーミフィケーションは 非専門家を研究に巻き込むための効果的なツールです
  • ゲーミフィケーションは量子物理学の最適化問題にはまだ広く適用されていません.

研究 の 目的:

  • 量子物理の最適化問題を"量子移動"オンラインプラットフォームを通じてゲーム化に適用する.
  • 量子コンピューティングの最適化課題に 人間のプレイヤーが解決策を見つけられるかどうかを調査する.
  • 人間の戦略に触発された新しい最適化方法を開発する.

主な方法:

  • 量子物理の最適化のための オンライン・プラットフォーム"クォンタム・ムーブ"を開発した
  • プラットフォーム上の人間のプレイヤーが発見した解決策を分析した.
  • メソッドの限界を理解するために,最適化環境の低次元レンダリングを作成しました.
  • プレイヤーの戦略に基づいたヒューリスティックな最適化方法を開発した.

主要な成果:

  • 複雑な量子コンピューティングの 最適化問題の解決に成功したのです
  • プレイヤーによる戦略は 確立された数値的な最適化方法を上回った.
  • 分析により 量子速度制限の近くで 伝統的な方法が失敗する理由が明らかになりました
  • 新しいヒューリスティック・最適化法が優れた効率性を示した.

結論:

  • 量子物理学の複雑な問題を 解決する方法はゲーム化です
  • 人間の直感は最適化課題に 独特の洞察力を提供し 特定のシナリオでは数学的方法を 超えています
  • 開発されたヒューリスティック・メソッドは,量子物理学やそれ以上の分野において,より広範な応用の可能性を示しています.