在较热的内部区域,粒子间的相互撞击将能量传递给了较冷的外部区域中的粒子,这一过程被称为传导。
Collisions between particles in the hot inner region transfer energy to particles in the cooler outer region via a process called conduction.
粒子经由其传导的力而获得质量——物质响应引力的一种性质。
The result of this is that the particles feel mass, the property of matter that responds to gravity.
显示高磁化效应的磁性铁粒子当磁性线圈不导电时,转矩不会从传动轴传导于从动轴。
Shows high magnetization effect of magnetic iron when magnetic particle coil not conductive, torque transmission shaft transmission from not in driven shaft.
本论文研究单分子层包裹的金纳米粒子间的电子传导机理及其传感应用,主要包括三部分的工作:1。
This dissertation focus on the electronic conducting in monolayer-protected Au nanoparticles as well as the sensing applications, mainly including three parts of work: 1.
为了使温度防止上升到潜在的损害水平,各传导的纳米电粒子在电极区域内中断电流流向特定组织区域。
To keep temperature from rising to potentially damaging levels, each conductive nanoparticle interrupts current flow to a specific tissue region engaged by the electrode region.
为了使温度防止上升到潜在的损害水平,各传导的纳米电粒子在电极区域内中断电流流向特定组织区域。
To keep temperature from rising to potentially damaging levels, each conductive nanoparticle interrupts current flow to a specific tissue region engaged by the electrode region.
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