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Magnetism01:30

Magnetism

8.2K
Magnets are commonly found in everyday objects, such as toys, hangers, elevators, doorbells, and computer devices. Experimentation on these magnets shows that all magnets have two poles: one is labeled north (N) and the other south (S). Magnetic poles repel if they are alike and attract if unlike. Moreover, both poles of a magnet attract unmagnetized pieces of iron.
An individual magnetic pole cannot be isolated. No matter how small, every piece of a magnet contains a north pole and a south...
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Magnetic Fields01:27

Magnetic Fields

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A moving charge or a current creates a magnetic field in the surrounding space, in addition to its electric field. The magnetic field exerts a force on any other moving charge or current that is present in the field. Like an electric field, the magnetic field is also a vector field. At any position, the direction of the magnetic field is defined as the direction in which the north pole of a compass needle points.
A magnetic field is defined by the force that a charged particle experiences...
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Meridians01:28

Meridians

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In surveying, meridians are vital reference lines to measure directions and establish accurate land orientations. Meridians run from the north to the south poles, providing a stable framework for angular measurements and mapping. Meridians are fundamental in survey design, with the primary types being astronomic, magnetic, and assumed meridians. Each type offers distinct benefits and limitations, selected based on the project's scale and precision needs.The astronomic meridian is aligned with...
1.1K
Compass01:23

Compass

18.4K
The compass is a fundamental instrument that operates by aligning its magnetic needle with Earth's magnetic field. This alignment facilitates navigation and orientation, offering a means to determine direction relative to magnetic north. However, the magnetic needle points to magnetic north, which differs slightly from true geographic north due to magnetic declination, which is the angular deviation between these two points. Declination varies based on geographic location and shifts over time...
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Magnetic Declination01:19

Magnetic Declination

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Magnetic declination is the angle between true north, which aligns with the Earth's rotational axis, and magnetic north, which follows the direction of the Earth's magnetic field. This discrepancy exists because the magnetic poles do not coincide with the geographic poles. The value of magnetic declination depends on the observer's location on Earth and is subject to changes over time due to the dynamic nature of the Earth's magnetic field.The declination is called eastern when magnetic north...
789
Graphs of Polar Equations01:17

Graphs of Polar Equations

465
The polar coordinate system represents points using a distance from a central point (the pole) and an angle from a reference direction (the polar axis). Unlike rectangular coordinates, polar coordinates are ideal for graphing curves with radial symmetry or periodic behavior.Some general forms of graphs in polar coordinates include the following:Equation of a Circle (Centered at the Pole):A graph where the radius remains constant for all angles traces a circle centered at the pole:Equation of a...
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Measuring Magnetically-Tuned Ferroelectric Polarization in Liquid Crystals
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Measuring Magnetically-Tuned Ferroelectric Polarization in Liquid Crystals

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2本のポールとコンパス.

Ruedi Meili1, Richard A Firtel

  • 1Section of Cell and Developmental Biology, Division of Biological Sciences and Center for Molecular Genetics, University of California, San Diego, 9500 Gilman Drive, La Jolla, CA 92093, USA.

Cell
|July 31, 2003
PubMed
まとめ
この要約は機械生成です。

Cdc42とRho GTPasesは,中性粒子の化学作用の主要な調節体である. 活性化されたCdc42は細胞を指向し,Rhoはウロポッドの形成を媒介し,細胞の二極化を強化する.

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科学分野:

  • 細胞生物学 細胞生物学
  • 免疫学 免疫学とは
  • 分子生物学は分子生物学である.

背景:

  • 中性粒子の化学反応は,免疫反応において極めて重要です.
  • RhoGTPasesは,細胞移動のレギュレータとして知られています.

研究 の 目的:

  • 中性粒子の偏極化と指向におけるCdc42とRho GTPasesの異なる役割を解明する.
  • 中性粒子の化学作用に関与するシグナル伝達複合体を特定する.

主な方法:

  • この研究では,おそらく細胞ベースのアッセイと分子信号分析が含まれていました.
  • 特定のGTPasesとその相互作用するパートナーの機能を調査した.

主要な成果:

  • 活性化されたCdc42は,Gベータガンマ,PAK1,PIXアルファと複合して,中性粒子の先端を指向する.
  • Gαα13によって活性化されるRho GTPaseは,ウロポッドの形成を駆動する.
  • ウロポッドと先端の間の負のフィードバックループは,細胞の極化を強化します.

結論:

  • Cdc42とRho GTPasesは,中性粒子の化学作用において補完的で重要な役割を果たしています.
  • これらのGTPasesを含む特定のシグナル伝達経路は,指向された細胞移動に不可欠です.