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関連する概念動画

Formation of Species01:31

Formation of Species

Speciation describes the formation of one or more new species from one or sometimes multiple original species. The resulting species are discrete from the parent species, and barriers to reproduction will typically exist. There are two primary mechanisms, speciation with and without geographic isolation—allopatric and sympatric speciation, respectively.Allopatric SpeciationIn allopatric speciation, gene flow between two populations of the same species is prevented by a geographic barrier, like...
Speciation Rates01:07

Speciation Rates

Speciation can proceed at markedly different rates, and evolutionary biologists commonly describe these differences through the models of gradualism and punctuated equilibrium. Both patterns explain how new species arise, but they differ in the tempo and continuity of evolutionary change. In both cases, evolutionary change arises from heritable variation within populations, with natural selection often shaping traits that improve survival and reproduction under specific environmental conditions.
Phase Transitions: Melting and Freezing02:39

Phase Transitions: Melting and Freezing

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...
Metallic Solids02:37

Metallic Solids

Metallic solids such as crystals of copper, aluminum, and iron are formed by metal atoms. The structure of metallic crystals is often described as a uniform distribution of atomic nuclei within a “sea” of delocalized electrons. The atoms within such a metallic solid are held together by a unique force known as metallic bonding that gives rise to many useful and varied bulk properties.
All metallic solids exhibit high thermal and electrical conductivity, metallic luster, and malleability. Many...
Entropy Changes Accompanying Specific Processes01:21

Entropy Changes Accompanying Specific Processes

Entropy, a measure of disorder in a system, changes during phase transitions like freezing or boiling. At the transition temperature Ttrs, where two phases are in equilibrium, the phase transition is a reversible process. The entropy change can be calculated from a substance's enthalpy of transition using the equation ΔStrs = ΔtrsH /Ttrs.When a perfect gas expands isothermally from one volume to another, entropy increases logarithmically with volume. Conversely, isothermal compression results...
Transformations of Functions III01:20

Transformations of Functions III

Transformations modify the graphical representation of a function without changing its fundamental form. One common transformation is reflection, which flips the graph across a designated axis. When the vertical coordinates of all points are multiplied by the negative one, the entire graph is mirrored over the horizontal axis. This transformation reverses the vertical orientation of peaks and troughs, akin to signal inversion in electrical systems, where a waveform is flipped, but the timing of...

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Updated: Jun 21, 2026

Gold Nanostar Synthesis with a Silver Seed Mediated Growth Method
12:39

Gold Nanostar Synthesis with a Silver Seed Mediated Growth Method

Published on: January 15, 2012

銀河の形態学的進化について

R G Abraham1, S van Den Bergh

  • 1Department of Astronomy and Astrophysics, University of Toronto, 60 St. George Street, Toronto, Ontario M5S 3H8, Canada. abraham@astro.utoronto.ca

Science (New York, N.Y.)
|August 18, 2001
PubMed
まとめ
この要約は機械生成です。

銀河の外観は,宇宙の時間とともに大きく進化し,渦巻き腕のような複雑な構造は,初期の宇宙ではあまり一般的になっていない. しかし,明るく光る円盤銀河の数は赤道移転1以降一貫している.

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Methods of Ex Situ and In Situ Investigations of Structural Transformations: The Case of Crystallization of Metallic Glasses
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Evolution of Staircase Structures in Diffusive Convection
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Evolution of Staircase Structures in Diffusive Convection

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関連する実験動画

Last Updated: Jun 21, 2026

Gold Nanostar Synthesis with a Silver Seed Mediated Growth Method
12:39

Gold Nanostar Synthesis with a Silver Seed Mediated Growth Method

Published on: January 15, 2012

Methods of Ex Situ and In Situ Investigations of Structural Transformations: The Case of Crystallization of Metallic Glasses
08:55

Methods of Ex Situ and In Situ Investigations of Structural Transformations: The Case of Crystallization of Metallic Glasses

Published on: June 7, 2018

Evolution of Staircase Structures in Diffusive Convection
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Evolution of Staircase Structures in Diffusive Convection

Published on: September 5, 2018

科学分野:

  • 宇宙の進化は宇宙の進化である.
  • 銀河の形態学 銀河の形態学
  • 天体物理学 天体物理学

背景:

  • 銀河の外観は,宇宙時間とともに大きく変化しています.
  • 初期の宇宙の銀河は,局所銀河と比較して異なる形状を示しています.

研究 の 目的:

  • 宇宙時間における銀河形態の進化を調査する.
  • 初期の宇宙以来,銀河の集団がどのように変化したかを理解するために.

主な方法:

  • 様々な赤道 (z) での銀河形態学の分析.
  • 遠い銀河の特徴と地元の銀河の分類を比較する.

主要な成果:

  • 銀河の形態学における有意な偏差は,z = 0.3.3 以下の赤偏移で観察されました.
  • 螺旋の腕はあまり発達せず,鎖状の螺旋銀河は,z = 0.5.5を超えると稀に現れる.
  • z = 1 の場合,銀河のかなりの部分は,従来の分類にはあまりにも特異的です.
  • 輝く円盤銀河の空間密度は,z = 1 以来一定のままである.

結論:

  • 銀河系に馴染みのある形は比較的最近のことである.
  • 個々の銀河の姿は進化する一方,輝く円盤銀河の集団は赤道移転1以降に保存されている.