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関連する概念動画

Kepler's First Law of Planetary Motion01:10

Kepler's First Law of Planetary Motion

4.9K
In the early 17th century, German astronomer and mathematician Johannes Kepler postulated three laws for the motion of planets in the solar system. He formulated his first two laws based on the observations of his forebears, Nikolaus Copernicus and Tycho Brahe.
Polish astronomer Nikolaus Copernicus put forth a theory that stated a heliocentric model for the solar system. According to this heliocentric theory, all the planets, including Earth, orbit the Sun in circular orbits.
On the other hand,...
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Kepler's Second Law of Planetary Motion01:29

Kepler's Second Law of Planetary Motion

4.7K
In the early 17th century, German astronomer and mathematician Johannes Kepler postulated three laws for the motion of planets in the solar system. His first law states that all planets orbit the Sun in an elliptical orbit, with the Sun at one of the ellipse's foci. Therefore, the distance of a planet from the Sun varies throughout its revolution around the Sun.
While in an elliptical orbit, the total energy of the planet is conserved. Therefore, the planet slows down when it is at apogee and...
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Schwarzschild Radius and Event Horizon01:21

Schwarzschild Radius and Event Horizon

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No object with a finite mass can travel faster than the speed of light in a vacuum. This fact has an interesting consequence in the domain of extremely high gravitational fields.
The minimum speed required to launch a projectile from the surface of an object to which it is gravitationally bound so that it eventually escapes the object’s gravitational field is called the escape velocity. The escape velocity is independent of the mass of the object. Merging the idea of escape...
2.2K
Detection of Black Holes01:10

Detection of Black Holes

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Although black holes were theoretically postulated in the 1920s, they remained outside the domain of observational astronomy until the 1970s.
Their closest cousins are neutron stars, which are composed almost entirely of neutrons packed against each other, making them extremely dense. A neutron star has the same mass as the Sun but its diameter is only a few kilometers. Therefore, the escape velocity from their surface is close to the speed of light.
Not until the 1960s, when the first neutron...
1.7K
Electric Field of a Charged Disk01:23

Electric Field of a Charged Disk

3.1K
The simplest case of a surface charge distribution is the uniformly charged disk. Calculating its electric field also helps us calculate the electric field of a large plane of charge.
The system's symmetry is in the cylindrical directions across the plane of the charge. As a result, the electric fields created by various surface charge elements nullify each other in the direction parallel to the surface. Thereby, the resulting electric field is perpendicular to the plane. Since the disk is...
3.1K
Reduced Mass Coordinates: Isolated Two-body Problem01:12

Reduced Mass Coordinates: Isolated Two-body Problem

2.5K
In classical mechanics, the two-body problem is one of the fundamental problems describing the motion of two interacting bodies under gravity or any other central force. When considering the motion of two bodies, one of the most important concepts is the reduced mass coordinates, a quantity that allows the two-body problem to be solved like a single-body problem. In these circumstances, it is assumed that a single body with reduced mass revolves around another body fixed in a position with an...
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Generation, Purification, and Characterization of Cell-invasive DISC1 Protein Species
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Generation, Purification, and Characterization of Cell-invasive DISC1 Protein Species

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恒星周円盤は,巨大な原恒星物体と関連している.

Zhibo Jiang1, Motohide Tamura, Misato Fukagawa

  • 1Purple Mountain Observatory, Chinese Academic of Sciences, Nanjing 210008, China.

Nature
|September 2, 2005
PubMed
まとめ
この要約は機械生成です。

巨大な恒星形成は不明である. 新しい研究は,高質量原星の周りのアウトフロー/ディスク系を明らかにし,低質量恒星に類似した蓄積円盤形成をサポートしています.

さらに関連する動画

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Scattering And Absorption of Light in Planetary Regoliths
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Laboratory Drop Towers for the Experimental Simulation of Dust-aggregate Collisions in the Early Solar System
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Scattering And Absorption of Light in Planetary Regoliths
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科学分野:

  • 天文学 天文学
  • 天体物理学 天体物理学
  • 星の形成 星の形成 星の形成

背景:

  • 太陽よりもはるかに大きい恒星の形成のメカニズムは十分に理解されていません.
  • 現在の理論には,低質量星の合併や,周周円盤経由の質量蓄積などがあり,低質量星の形成を反映している.

研究 の 目的:

  • 巨大な若い恒星物体の周りの環状円盤の存在と性質を調査する.
  • 太陽の質量7倍以上の質量を持つ恒星の形成経路を明らかにする.

主な方法:

  • 近赤外線画像ポリメトリーを使用.
  • ベックリン・ノイゲバウアー元恒星物体の観測.

主要な成果:

  • ベックリン・ノイゲバウアー元恒星物体の周りの流出/円盤システムの検出.
  • ベックリン・ノイゲバウアー・オブジェクトの質量は少なくとも7太陽質量 (7M(o)).

結論:

  • この発見は,少なくとも7Mの質量を持つ星が,周周星円盤からの質量蓄積によって形成されるという強力な証拠を提供します.
  • これは,広い範囲の恒星質量で恒星形成の統一モデルをサポートしています.