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相关概念视频

Laminar and Turbulent Flow01:07

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Fluid dynamics is the study of fluids in motion. Velocity vectors are often used to illustrate fluid motion in applications like meteorology. For example, wind—the fluid motion of air in the atmosphere—can be represented by vectors indicating the speed and direction of the wind at any given point on a map. Another method for representing fluid motion is a streamline. A streamline represents the path of a small volume of fluid as it flows. When the flow pattern changes with time, the...
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Applying the conservation of energy principle or the work-energy theorem to an incompressible, inviscid fluid in laminar, steady, irrotational flow leads to Bernoulli's equation. It states that the sum of the fluid pressure, potential, and kinetic energy per unit volume is constant along a streamline.
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Linear momentum is a fundamental concept in physics that describes the motion of an object. It is a vector quantity, having a magnitude equal to the product of its mass and its velocity, and direction along the object's velocity. On the other hand, linear impulse, also known as momentum impulse, is a concept in physics related to the change in the linear momentum of an object. Impulse is a vector quantity defined as the product of force and the time over which the force is applied.
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Principle of Linear Impulse and Momentum for a System of Particles01:21

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In the context of a system of particles moving relative to an inertial frame of reference, the equation of motion is a crucial tool for understanding the dynamics of the system. This equation, which accounts for external forces acting on each particle, plays a fundamental role in describing the system's behavior.
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Conservation of Linear Momentum for a System of Particles01:28

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In the dynamic realm of billiards, a fascinating interplay of forces governs the motion of cue balls and stationary balls. When the cue ball collides with a stationary ball, linear momentum is exchanged. The cue ball imparts a fraction of its linear momentum to the stationary ball, causing the cue ball to decelerate while initiating the motion of the stationary ball.
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The kinetic model of gases explains the properties of a perfect gas using three main assumptions: molecules move in ceaseless random motion, their size is negligible compared to the distances between them, and they do not interact except during perfectly elastic collisions. The total energy of a gas is the sum of the kinetic energies of all its constituent molecules. The pressure exerted by the gas arises from the continual bombardment of the container walls by billions of colliding molecules.
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微流体系统中的光动力学粒子

Jiahao Du1, Tingting Yuan2, Xiaotong Zhang3

  • 1Key Lab of In-fiber Integrated Optics, Ministry Education of China, College of Physics and Optoelectronic Engineering, Harbin Engineering University, Harbin 150001, China.

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概括
此摘要是机器生成的。

研究人员开发了一种新的光动力学粒子,使用环状核心空心纤维. 该设备精确控制微流体系统中的粒子速度,为细胞操纵和分类提供了进步.

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科学领域:

  • 光学和光子学 在光学和光子学.
  • 微流体学 微流体学
  • 生物医学工程 生物医学工程

背景情况:

  • 微型对于控制生物医学设备中的液体流速至关重要,例如流量细胞计.
  • 精确控制含有混合液体的微流系统中的颗粒运动仍然是一个重大挑战.

研究的目的:

  • 推出一种新的光动力学粒子,利用环状核心空心纤维.
  • 为了证明微流体系统中对粒子速度的有效控制.

主要方法:

  • 激光合到一个环状核心通过合的光纤和接.
  • 五秒激光处理以创建微观孔,用于颗粒注射.
  • 形成一个形外光场来加速粒子.

主要成果:

  • 在低注入压力下,粒子速度与激光功率呈正相关性.
  • 在恒定的激光功率下,颗粒流速保持独立于注入压力.
  • 在微流系统内实现了有效的粒子速度控制.

结论:

  • 拟议的光动力粒子为微流体芯片系统中的粒子加速控制提供了可行的解决方案.
  • 这项技术在微生物学中对细胞操纵和分类应用具有重大潜力.