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関連する概念動画

Torque01:10

Torque

22.1K
Torque is an important quantity for describing the dynamics of a rotating rigid body. We see the application of torque in many ways in the world, such as when pressing the accelerator in a car, which causes the engine to apply additional torque on the drivetrain. Here, we define torque and provide a framework to create an equation to calculate torque for a rigid body with fixed-axis rotation.
Torque can be considered as the rotational counterpart to force. Since forces change the translational...
22.1K
Torque Free Motion01:15

Torque Free Motion

806
The torque-free motion refers to the movement of a rigid body in space when no external torques are acting upon it. This type of motion can be observed in environments where there are no external forces or frictions, like in outer space. For example, a rotation of Mars in space is a torque-free motion. Mars is an axisymmetric object, meaning it has an axis of symmetry along which it rotates, designated as the z-axis. The rotating frame of reference is defined such that the center of mass of...
806
Net Torque Calculations01:19

Net Torque Calculations

11.3K
When a mechanic tries to remove a hex nut with a wrench, it is easier if the force is applied at the farthest end of the wrench handle. The lever arm is the distance from the pivot point (the hex nut in this case) to the person’s hand. If this distance is large, the torque is higher. Only the component of the force perpendicular to the lever arm contributes to the torque. Therefore, pushing the wrench perpendicular to the lever arm is more advantageous. If multiple people apply force to...
11.3K
Torque On A Current Loop In A Magnetic Field01:13

Torque On A Current Loop In A Magnetic Field

5.8K
The most common application of magnetic force on current-carrying wires is in electric motors. These consist of loops of wire, which are placed between the magnets with a magnetic field. When current flows through the loops, the magnetic field applies torque, which causes the shaft to rotate, thus converting electrical energy to mechanical energy.
Consider a rectangular current-carrying loop containing N turns of wire, placed in a uniform magnetic field. The net force on a current-carrying loop...
5.8K
Physical Principles Governing Gas Exchange01:16

Physical Principles Governing Gas Exchange

3.6K
Gas behavior plays a vital role in understanding bodily processes such as external and internal respiration. External respiration involves the diffusion of oxygen into the blood and carbon dioxide out of it in the lungs. In contrast, internal respiration happens in body tissues, where these gases move in opposite directions.
Gas Laws Governing Respiration
The behavior of gases is guided by Dalton's Law of partial pressures and Henry's Law.
Dalton's Law asserts that the total...
3.6K
Correlations02:20

Correlations

35.8K
Correlation means that there is a relationship between two or more variables (such as ice cream consumption and crime), but this relationship does not necessarily imply cause and effect. When two variables are correlated, it simply means that as one variable changes, so does the other. We can measure correlation by calculating a statistic known as a correlation coefficient. A correlation coefficient is a number from -1 to +1 that indicates the strength and direction of the relationship between...
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関連する実験動画

Updated: Jan 27, 2026

Magnetic Tweezers for the Measurement of Twist and Torque
11:41

Magnetic Tweezers for the Measurement of Twist and Torque

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正確に制約された交換相関トルクからの物理的スピントルク

Jacques K Desmarais1, Kamel Bencheikh2, Giovanni Vignale3

  • 1Università di Torino, Dipartimento di Chimica, via Giuria 5, 10125 Torino, Italy.

Physical review letters
|January 26, 2026
PubMed
まとめ
この要約は機械生成です。

本研究では、非コリン磁気システムにおける物理的スピントルクを正確に捉えるためにスピン電流DFTを導入します。これは、偽の交換相関トルクを解決し、正確なスピンダイナミクスシミュレーションを可能にします。

キーワード:
スピン電流DFT非コリン磁気スピンダイナミクス交換相関トルク物理的スピントルク

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Operant Learning of Drosophila at the Torque Meter
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Operant Learning of Drosophila at the Torque Meter

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関連する実験動画

Last Updated: Jan 27, 2026

Magnetic Tweezers for the Measurement of Twist and Torque
11:41

Magnetic Tweezers for the Measurement of Twist and Torque

Published on: May 19, 2014

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Operant Learning of Drosophila at the Torque Meter
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Operant Learning of Drosophila at the Torque Meter

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In Vivo Measurement of Hindlimb Dorsiflexor Isometric Torque from Pig
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In Vivo Measurement of Hindlimb Dorsiflexor Isometric Torque from Pig

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科学分野:

  • 物性物理学
  • 量子力学
  • 材料科学

背景:

  • スピン密度汎関数理論(SDFT)は、非コリン磁気システムにおける物理的スピントルクの正確なモデリングに苦労しています。
  • SDFTの限界には、偽の交換相関トルクや、ベクトルポテンシャルとスピン軌道結合を厳密に組み込むことができないことが含まれます。

研究 の 目的:

  • 非コリン磁気における物理的スピントルクを捉えるための堅牢な理論的枠組みを開発すること。
  • スピンダイナミクスの記述におけるSDFTの限界を克服すること。

主な方法:

  • スピン電流DFT内での交換相関エネルギーのU(1)×SU(2)不変性を利用する解決策を提案します。
  • 標準的なSDFTではアクセスできない正確な制約を活用します。

主要な成果:

  • 内部対称性によって制約された非コリン解において、ゼロにならない交換相関トルクを達成します。
  • これらの制約されたトルクがスピン磁化伝播に影響を与えないことを示します。

結論:

  • スピンダイナミクスは、物理的電流と物理的スピントルクのみによって正確に記述されます。
  • 提案されたスピン電流DFTアプローチは、複雑な磁気システムにおけるスピントルクの研究のための厳密な方法を提供します。