量子物理学的原理之一,由薛定谔猫理想实验阐明,是说测量行为将一个物体的波形叠加成一个单一的观察状态。
One of the principles of quantum physics, illustrated by the Schrodinger's cat thought experiment, is that the act of measurement collapses an object's waveform into a single, observed state.
本文在叠加原理和拉氏变换方法的基础上,分析了感应电机在不同的短路状态下瞬态过程。
On the basis of the superposition principle and Laplace transformation, the process of the transient state under different short circuit states of induction machine is analyzed.
但众所周知,在塑性阶段的极限承载力状态下应力叠加原理是不成立的。
But it is well known that the principle of superimposed stresses is not correct under ultimate limit states of plastic stage.
基于故障电流叠加原理,构造了电压跌落状态估计可观性分析的数学模型,合理地解决了部分故障路段不可观的问题。
Sag state estimation observability analysis is modeled and correlative modification method is proposed from the point of fault current superimposing firstly.
基于故障电流叠加原理,构造了电压跌落状态估计可观性分析的数学模型,合理地解决了部分故障路段不可观的问题。
Sag state estimation observability analysis is modeled and correlative modification method is proposed from the point of fault current superimposing firstly.
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