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Planar Rigid-Body Motion01:22

Planar Rigid-Body Motion

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Understanding the movement of a rigid body in planar motion involves recognizing that every particle within this body is traversing a path that maintains a consistent distance from a specific plane. This concept is fundamental in the study of physics and mechanical engineering, and it allows us to comprehend better how objects move in space.
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Virtual Work for a System of Connected Rigid Bodies01:06

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Virtual work is a powerful method used to solve problems involving several connected rigid bodies. When the system is in equilibrium, virtual work is zero. This allows the calculation of the resulting forces when a system undergoes a virtual displacement. When attempting to analyze such a system, first, use a free-body diagram, where an independent coordinate represents the configuration of the links, and mark its deflected position resulting from the positive virtual displacement.
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Plastic Deformations of Members with a Single Plane of Symmetry01:21

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When a structural member undergoes plastic deformation due to bending, it is crucial to understand the position of the neutral axis and the stress distribution. This member, characterized by a single plane of symmetry, exhibits a uniform stress distribution, with negative stress above the neutral axis and positive stress below. Notably, the neutral axis does not align with the centroid of the cross-section. This misalignment is typical in cases where the cross-section is not rectangular or...
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Deformation of Member under Multiple Loadings01:11

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When a rod is made of different materials or has various cross-sections, it must be divided into parts that meet the necessary conditions for determining the deformation. These parts are each characterized by their internal force, cross-sectional area, length, and modulus of elasticity. These parameters are then used to compute the deformation of the entire rod.
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First Law: Particles in Two-dimensional Equilibrium01:18

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Recall that a particle in equilibrium is one for which the external forces are balanced. Static equilibrium involves objects at rest, and dynamic equilibrium involves objects in motion without acceleration; but it is important to remember that these conditions are relative. For instance, an object may be at rest when viewed from one frame of reference, but that same object would appear to be in motion when viewed by someone moving at a constant velocity.
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具有可变形颗粒的活性阴性.

Ioannis Hadjifrangiskou1, Liam J Ruske1, Julia M Yeomans1

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概括
此摘要是机器生成的。

活跃的脑膜学理论现在包括细胞形状的变化,揭示了组织流动所需的活跃应激的门. 除此之外,组织表现出具有变形细胞和多样化的流域的动态状态.

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科学领域:

  • 物理 物理学 物理
  • 生物物理学的生物物理.
  • 软物质物理学 软物质物理学

背景情况:

  • 活体遗体的水力动力学理论模拟了细胞流和组织缺陷.
  • 现有的模型假定固定细胞形状,忽略了流动诱导的变形.

研究的目的:

  • 通过结合细胞形状变形性来扩展活体遗传学理论.
  • 为了研究细胞形状变化对组织规模动态的影响.

主要方法:

  • 开发了一种扩展连续理论,用于活跃的敌人学.
  • 分析了活跃应力和弹性屏障在细胞变形中的作用.

主要成果:

  • 循环电池需要足够的活性应力来克服产生流量的弹性障碍.
  • 一个动态稳定状态在临界压力值以上出现.
  • 这种状态的特点是,存在着具有强烈流动的长长细胞和静止的同otropic 细胞的共存区域.

结论:

  • 细胞形状的可变性对于理解活体阴性组织动态至关重要.
  • 活跃应力值决定了向产生流量的状态的过渡.
  • 该模型预测由细胞形状可塑性驱动的异质组织状态.