期刊文献+

探讨计算太阳系内行星的引力加速度

Analysis on the Planets Gravitational Acceleration in Solar System in Classical Mechanics
下载PDF
导出
摘要 引力是存在于太阳系星体间的作用力,能够引起比较直观的自然现象。引力加速度是反映引力作用的一个物理量,文章着重用牛顿运动定律和万有引力定律对比分析太阳系行星的引力加速度和地月系统内不同位置的月球的引力加速度及误差,表明用牛顿运动定律和万有引力定律计算的行星的引力加速度吻合得很好,具有一定范围的准确性,即太阳系行星的引力加速度与太阳质量成正比,与行星距离太阳的距离成反比。同时,验证了牛顿的万有引力定律在处理地月系统近点和远点的正确性。因而,万有引力定律的普遍性可以推广到更大的天体系统范围使用,从而认识到引力理论对人类发展的重要性。 Gravity is the force that exists between the stars in the solar system,which can cause more intuitive natural phenomenon.Gravitational acceleration is a physical quantity that reflects gravitational action.This paper focuses on using Newton's laws of motion and gravity to analysis the gravitational acceleration and a margin of error of the planets in the solar system,and then that of the moon at the different-position in the earth-moon system.This verifies the accuracy of the acceleration defined in classical mechanics and the gravitational acceleration calculated by Newton's law of universal gravitation within a certain range,that is,the gravitational acceleration of the planets in the solar system is proportional to the mass of the sun and inversely proportional to the distance between the planets and the sun.At the same time,the correctness of Newton's law of universal gravitation in dealing with near-point and far-point of earthmoon system is verified.Thus we realize the importance of gravity theory to human development.
作者 张青梅 吴灿 武婷婷 张晋华 ZHANG Qingmei;WU Can;WU Tingting;ZHANG Jinhua(Department of Physics,Xinzhou Normal University,Xinzhou 034000,China)
出处 《忻州师范学院学报》 2023年第5期21-25,共5页 Journal of Xinzhou Teachers University
基金 山西省高等学校科技创新项目资助(2019L0843) 忻州师范学院教学改革创新研究项目(JG202319) 山西省高等学校教学改革创新项目资助(J20231129)
关键词 太阳系 引力加速度 地月系统 牛顿定律 solar system gravitational acceleration earth-moon system newton's laws
  • 相关文献

参考文献6

二级参考文献46

  • 1FENG Y, LIB. A Benefit of Multiple Carrier GNSS Signals: Regional Scale Network-based RTK with Doubled Inter station Distances[J]. Spatial Science, 2008, 53(2) 135-147.
  • 2FENG Y, RIZOS C, HIGGINS M, et al. Developing Regional Precise Positioning Services Using the Current and Future GNSS Receivers[C]// Proceedings of Spatial Sciences Institute Biennial International Conference, Adelaide: [s. n. ],2009.
  • 3China Satellite Navigation Project Center. Compass/Beidou Navigation Satellite System Development [R]. Beijing: CSNPC, 2009.
  • 4GRELIER T, DANTEPAL J, DELATOUR A, et al. Initial Observations and Analysis of Compass MEO Satellite Signals[J]. Inside GNSS, 2007(5/7) :39-43.
  • 5FENG Y. GNSS Three Carrier Ambiguity Resolution Using Ionosphere-reduced Virtual Signals[J]. Journal of Geodesy, 2008, 82(12): 847-862.
  • 6YANG Y, TANG Y, CHEN C, et al. Integrated Adjustment of Chinese 2000' GPS Control Network[J]. Survey Review, 2009, 41(313): 226-237.
  • 7LIM S, RIZOS C. A Conceptual Framework for Servey- Based GNSS Operations[J]. Journal of Global Positioning Systems, 2008, 7(2): 35-42.
  • 8中国科学技术协会主编,中国天文学会编著.2007--2008天文学学科发展报告.北京:中国科学技术出版社,2008.
  • 9Zhang S N. Astrophysical black holes in the physical universe, in Astronomy Revolution: 400 Years of Exploring the Cosmos (York D G, Gingerich O, Zhang S. N. eds), Taylor & Francis Group LLC/CRC Press, 2011.
  • 10Feng H, Sofia R. Ultraluminous X-ray Sources in the Chandra and XMM-Newton Era, New Astronomy Reviews, in press (2011arXiv1109. 1610F), 2011.

共引文献778

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部