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関連する概念動画

Collisions in Multiple Dimensions: Problem Solving01:06

Collisions in Multiple Dimensions: Problem Solving

4.5K
In multiple dimensions, the conservation of momentum applies in each direction independently. Hence, to solve collisions in multiple dimensions, we should write down the momentum conservation in each direction separately. To help understand collisions in multiple dimensions, consider an example.
A small car of mass 1,200 kg traveling east at 60 km/h collides at an intersection with a truck of mass 3,000 kg traveling due north at 40 km/h. The two vehicles are locked together. What is the...
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Three-Dimensional Force System01:30

Three-Dimensional Force System

3.2K
In mechanical engineering, a three-dimensional force system is a system of forces acting in three dimensions, with forces applied along the x, y, and z coordinate axes. The three-dimensional force system is an important concept in mechanical engineering, as it allows engineers to understand and analyze the behavior of objects and structures in three dimensions. By understanding the forces acting on a system, engineers can design more efficient and effective mechanical systems that can withstand...
3.2K
Three-Dimensional Force System:Problem Solving01:30

Three-Dimensional Force System:Problem Solving

1.5K
A three-dimensional force system refers to a scenario in which three forces act simultaneously in three different directions. This type of problem is commonly encountered in physics and engineering, where it is necessary to calculate the resultant force on the system, which can then be used to predict or analyze the behavior of the object or structure under consideration.
To solve a three-dimensional force system, first resolve each force into its respective scalar components. Do this using...
1.5K
Equivalent Resistance01:16

Equivalent Resistance

1.2K
In circuit analysis, situations often arise where resistors are neither in series nor parallel configurations. To tackle such scenarios, three-terminal equivalent networks like the wye (Y) (Figure 1 (a)) or tee (T) and delta (Δ) (Figure 1 (b)) or pi (π) networks come into play. These networks offer versatile solutions and are frequently encountered in various applications, including three-phase electrical systems, electrical filters, and matching networks.
1.2K
Three-Dimensional Analysis of Strain01:29

Three-Dimensional Analysis of Strain

791
Three-dimensional strain analysis is crucial for understanding how materials deform under stress, particularly in elastic, homogeneous materials. This method employs principal stress axes to simplify complex stress states into more understandable forms. Subjected to stress, a small cubic element within a material either expands or contracts along these axes, transforming into a rectangular parallelepiped. This transformation effectively illustrates the material's deformation. The principal...
791
Sequence Networks of Rotating Machines01:24

Sequence Networks of Rotating Machines

592
A Y-connected synchronous generator, grounded through a neutral impedance, is designed to produce balanced internal phase voltages with only positive-sequence components. The generator's sequence networks include a source voltage that is exclusively in the positive-sequence network. The sequence components of line-to-ground voltages at the generator terminals illustrate this configuration.
Zero-sequence current induces a voltage drop across the generator's neutral impedance and other...
592

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関連する実験動画

Updated: Apr 28, 2026

Large-scale Reconstructions and Independent, Unbiased Clustering Based on Morphological Metrics to Classify Neurons in Selective Populations
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三次元における格子配列の近似の対応を図る.

Lawrence C Andrews1, Herbert J Bernstein2

  • 1Ronin Institute for Independent Scholarship 2.0, USA.

Acta crystallographica. Section A, Foundations and advances
|February 19, 2026
PubMed
まとめ

結晶構造を一致させるには,多くの変換が必要です. この研究は,正確な格子マッチングに必要な試行数を大幅に減らす新しい方法を導入しています.

科学分野:

  • クリスタログラフィーです.
  • 材料科学 材料科学とは
  • コンピューティング・ケミストリー

背景:

  • 結晶格子間の最適な配列を決定することは,材料の性質を理解するために非常に重要です.
  • 格子マッチングの伝統的な方法は,しばしば広範なコンピューティング検索を含みます.

研究 の 目的:

  • 2つの結晶単位細胞の間の最適なマッチを特定するためのより効率的なアルゴリズムを開発する.
  • 格子比較に関連する計算コストを減らすために.

主な方法:

  • この研究は,新しい変換アルゴリズムの開発を伴う可能性が高い.
  • このアルゴリズムは,最適な格子配列の検索スペースを最小限にすることを目的としています.

主要な成果:

  • 格子マッチングに必要な試行変換の数を大幅に削減します.
  • 提案された方法は,既存の技術と比較して,より効率的なアプローチを提供します.

結論:

  • 新しい方法は,結晶格子比較のための計算上有利なソリューションを提供します.
  • この進歩は,材料の発見と特徴づけに関する研究を加速させることができます.
キーワード:
ニグリニグリニグリニグリニグリニグリニP3 P3 P3 P3 P3 P3 P3 P3 P3格子マッチングの格子マッチング格子縮小の格子縮小とは

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