温度、重力修正是影响水银气压表在使用和校准中测量不确定度的重要因素。
Temperature and gravitational corrections are important factors affecting the use of Barometer and the measurement uncertainty in calibration.
实例验证证明用布格修正法获得的重力值可以满足气压测量的准确度要求。
It has been verified by examples that the gravity used with Bouguer correction is enough accurate for atmospheric pressure measurement.
所做的研究是实施重力无源导航定位的基础,对下一步的重力图匹配及导航误差的修正具有重要的意义。
It is the foundation of gravitational passive navigation and has considerable value on the gravitational map matching and the correction of navigational errors inherent in INS system.
本文介绍了用粘滞阻力修正法和粘滞阴力互相抵消法来精确地测量重力加速度。
Methods for accurate gravitational acceleration measurement are presented, which are viscous force modified method and viscous force offset each other method.
只有在极端的情况下,牛顿动力学的这两项修正才需上场,如极高的速率( 狭义相对论)或极强的重力(广义相对论)。
The two proven extensions of Newtonian dynamics come into play under extreme conditions, such as extreme speeds (special relativity) or extremely strong gravity (general relativity).
只有在极端的情况下,牛顿动力学的这两项修正才需上场,如极高的速率( 狭义相对论)或极强的重力(广义相对论)。
The two proven extensions of Newtonian dynamics come into play under extreme conditions, such as extreme speeds (special relativity) or extremely strong gravity (general relativity).
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