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相关概念视频

Frictional Force01:07

Frictional Force

When a body is in motion, it encounters resistance because the body interacts with its surroundings. This resistance is known as friction, a common yet complex force whose behavior is still not completely understood. Friction opposes relative motion between systems in contact, but also allows us to move. Friction arises in part due to the roughness of surfaces in contact. For one object to move along a surface, it must rise to where the peaks of the surface can skip along the bottom of the...
Static and Kinetic Frictional Force01:05

Static and Kinetic Frictional Force

One of the simpler characteristics of sliding friction is that it is parallel to the contact surfaces between systems, and is always in a direction that opposes the motion or attempted motion of the systems relative to each other. If two systems are in contact and moving relative to one another, then the friction between them is called kinetic friction. For example, kinetic friction slows a hockey puck sliding on ice.
However, if two systems are in contact and are stationary relative to one...
Dry Friction01:30

Dry Friction

Dry friction occurs between two solid surfaces in contact as they attempt to move relative to one another. In daily life, dry friction is encountered in various forms, such as when walking on the ground, sliding an object across a table, or rubbing hands together. Despite its ubiquity, the underlying mechanisms behind dry friction are not readily visible.
To illustrate this concept, imagine a wooden crate resting on a rough, non-uniform horizontal surface. When an external force is applied to...
Kinetic Friction01:26

Kinetic Friction

Consider a truck trying to pull a stationary car. As the truck exerts a force on the car, static friction is created at the point of contact between the two surfaces. This frictional force resists the car's movement and keeps it at rest. However, when the applied force by the truck surpasses the limiting static frictional force, an interesting phenomenon occurs. The frictional force at the interface reduces to a lower value, known as the kinetic frictional force. At this point, the car begins...
Frictional Forces on Flat Belts01:28

Frictional Forces on Flat Belts

Flat belts are commonly used in various industrial applications for transmitting power from one pulley to another. When a flat belt is wrapped around a set of pulleys, it experiences different tensions at the driving pulley ends due to the friction between the belt and pulley surface. When the pulley moves in a counterclockwise direction, the tension T2 on the opposite side of the pulley where the belt is moving away from is higher than the tension T1 on the side where the belt is moving...
Rolling Resistance01:21

Rolling Resistance

When a solid cylinder rolls steadily on a rigid surface, the normal force applied by the surface on the cylinder is perpendicular to the tangent at the contact point. However, since no materials are entirely rigid, the surface's reaction to the cylinder involves a range of normal pressures.
For instance, imagine a hard cylinder rolling on a comparatively soft surface. The cylinder's weight compresses the surface beneath it. As the cylinder moves, the material in front of it slows down due to...

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相关实验视频

Updated: Jun 19, 2026

Label-free Isolation and Enrichment of Cells Through Contactless Dielectrophoresis
10:38

Label-free Isolation and Enrichment of Cells Through Contactless Dielectrophoresis

Published on: September 3, 2013

在固体上,脱位驱动的表面动力学.

S Kodambaka1, S V Khare, W Swiech

  • 1Frederick Seitz Materials Research Laboratory and the Department of Materials Science, University of Illinois, 104 South Goodwin Avenue, Urbana, Illinois 61801, USA. kodambak@uiuc.edu

Nature
|May 7, 2004
PubMed
概括
此摘要是机器生成的。

表面位移通过点缺陷迁移驱动化 (TiN) 表面的螺旋步骤增长. 这种在没有外部压力的情况下观察到的现象,揭示了对脱位介导的表面粗化和纳米结构稳定性的新见解.

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Functional Surface-immobilization of Genes Using Multistep Strand Displacement Lithography
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Functional Surface-immobilization of Genes Using Multistep Strand Displacement Lithography

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Measuring the Interaction Force Between a Droplet and a Super-hydrophobic Substrate by the Optical Lever Method
07:18

Measuring the Interaction Force Between a Droplet and a Super-hydrophobic Substrate by the Optical Lever Method

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相关实验视频

Last Updated: Jun 19, 2026

Label-free Isolation and Enrichment of Cells Through Contactless Dielectrophoresis
10:38

Label-free Isolation and Enrichment of Cells Through Contactless Dielectrophoresis

Published on: September 3, 2013

Functional Surface-immobilization of Genes Using Multistep Strand Displacement Lithography
11:05

Functional Surface-immobilization of Genes Using Multistep Strand Displacement Lithography

Published on: October 25, 2018

Measuring the Interaction Force Between a Droplet and a Super-hydrophobic Substrate by the Optical Lever Method
07:18

Measuring the Interaction Force Between a Droplet and a Super-hydrophobic Substrate by the Optical Lever Method

Published on: June 14, 2019

科学领域:

  • 材料科学 材料科学 材料科学
  • 表面科学是一门学科.
  • 固态物理 固态物理

背景情况:

  • 失位是结晶固体中影响物质性质的直线缺陷.
  • 表面终结的位移会影响纳米结构的稳定性,以及机械和化学过程.
  • 对于表面动力学和演化上的脱位效应的理解有限.

研究的目的:

  • 为了研究表面终结失位的近平衡动态.
  • 了解表面形态进化中脱位的作用.
  • 探索控制表面纳米结构稳定的机制.

主要方法:

  • 利用低能电子显微镜 (LEEM) 进行实时观测.
  • 研究了终结在化 (TiN) 的 (111) 表面的位移.
  • 在没有施加外部应力或净质量变化的情况下观察到的现象.

主要成果:

  • 观察到热驱动的核和螺旋步骤的增长围绕着脱位核心.
  • 证明了螺旋步骤在恒定,温度依赖的角速度下保持形状的增长.
  • 归因于螺旋阶梯形成的点缺陷迁移沿着从散装到表面的脱位线.

结论:

  • 表面终结的位移可以诱导显著的表面动态和形态演变.
  • 脱位介导的表面粗发生即使没有沉积或蒸发.
  • 结果为控制纳米结构稳定的机制提供了基本的见解.