1) Effective potential
有效势
1.
Comparing general relativistic effective potential with pseudo-newtonian effective potential;
广义相对论有效势与伪牛顿有效势的比较
2.
By the Feshbath projection operator method, the multi-channel quantum scattering procceses have been studied, and the expressions of the resonance scattering, the effective potential and the transition matrix elements have been derived, and has been described the existence of the resonance states correctly.
用Feshbach投影算子方法研究多通道量子散射,导出有效势与跃迁矩阵,正确描写了共振态的存在。
3.
The stability of the trajectory of circle motion in a centripetal potential,in particular,the YuKawa one , is discussed by using the effective potential method which has the advantage insimplicity of mathematical treatment as well as in clearness of physical meaning.
以汤川核力场为例,说明用有效势方法讨论有心力场中圆形轨道的稳定性,数学处理比较简明,物理图象也比较清晰。
2) lanthanide series
有效芯势
3) Cell voltage
有效电势
1.
Through the research,it is found that the temperature have great influence on SOFC s cell voltage.
对固体氧化物燃料电池的理想电势及有效电势进行理论分析,利用有关最新发表的活化超电势、欧姆超电势和传质超电势的计算公式,对有效电势和超电势进行了计算,探讨了工作温度和燃料中水蒸汽含量对有效电势的影响。
4) the modified potential barrier
有效势垒
5) effective potential energy
有效势能
1.
In the teaching of central field, we should pay attention to turning the relative motion of two - body into one dimentuonal radial motion by introducing two physical concepts of reduced mass and effective potential energy, and we should also pay attention that the area law is the geometrical description of the conservation of angular momentum in the central field.
在有心力场教学中,应着重强调指出:通过引入折合质量和有效势能这两个物理量,把二体相对运动问题转化为单体沿径向的一维运动问题;以及面积定律是质心在有心力场中角动量守恒的几何描述。
2.
Based on the mesoscopic inclusion theory,the estimation formula of effective potential energy of the air-entrained concrete can be derived by variation structure approach.
把混凝土看作基体,气孔看成夹杂,采用Mori-Tanaka估算方法研究了含气量对混凝土弹性模量的削弱影响规律;基于细观夹杂理论,由变分结构方法导出引气混凝土的有效势能估算式,然后对等效应变求导推出引气混凝土的有效应力-应变关系曲线;最后假定混凝土基体服从D-P屈服准则,通过引入能量密度支函数概念,并构造其函数逼近序列以解决其在气孔边界不可导的问题,最终导出了引气混凝土的宏观D-P屈服准则,并通过它研究了含气量对混凝土内摩擦系数的削弱影响。
补充资料:村村势势
1.犹言土头土脑。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条