【摘要】 依据定量因果原理,导出了相对性原理,揭示了定量因果原理与相对性原理和Euler-Lagrange方程的内在联系和统一,进而得出加速度场可用相对应的引力场来代替,以及绝对加速度、牵连加速度、相对加速度分别与相对应的绝对引力场强度、牵连引力场强度、相对引力场强度等价,得到了一种新的物理效应,即有加速度场情况下,相对参考系中所测得相对引力场强度有增减的效应,甚至使航天器中的引力场趋于极大或极小。在对相对参考系中所测得电场强度的研究中,得到了另一种新的物理效应,即有加速度情况下相对参考系中所测得电场强度有增减的效应。同时给出了在宇宙飞船中重要应用,对于飞船中其他物理量也有类似的结果,特别是本文的研究在航空航天中有实际的理论意义并有大量重要且关键的实际应用。更多还原

【Abstract】 This paper gives application research on relative effects of relativity principle based on quantitative causal principle in Space technology. Namely,in terms of quantitative causal principle,this paper deduces relativity principle,gives unified descriptions of quantitative causal principle,relativity principle and Euler-Lagrange equations. This paper further gets that the corresponding acceleration field can be replaced by the gravitational field strength,and shows that absolute acceleration,drawing acceleration and relative acceleration are,respectively,equivalent to corresponding absolute gravitational field strength,drawing gravitational field strength and relative gravitational field strength. Therefore,we have deduced a kind of new physical effects,i. e.,under the condition of existing acceleration,in the relative reference system,the measured relative strength of the gravitational field increases or decreases with change of the drawing acceleration system,even approaches to extreme big or small.And this paper achieves another new physical effect,i. e.,in relative reference system under acceleration condition,the measured electric field strength has increasing and decreasing effects. And this paper gives an important application to measure electric field strength in relative reference spaceship.更多还原