家 » 水星近日点进动

水星近日点进动

1915

Urbain Le Verrier
Albert Einstein

General relativity provided the first accurate explanation for the anomalous precession of Mercury’s perihelion. Newtonian gravity could not fully account for the slow, gradual shift in the orientation of Mercury’s elliptical orbit. Einstein’s theory correctly predicted the missing 43 arcseconds per century, attributing it to the curvature of spacetime around the Sun, a major early triumph for the theory.

In the 19th century, astronomers observed that Mercury’s elliptical orbit was not stationary. Its point of closest approach to the Sun, the perihelion, was slowly advancing, or precessing. While most of this precession was explained by the gravitational tugs of other planets according to Newton’s laws, a small discrepancy of about 43 arcseconds per century remained unaccounted for. This anomaly puzzled scientists, with some proposing the existence of an undiscovered planet, Vulcan, between Mercury and the Sun.

In 1915, Albert Einstein applied his new theory of general relativity to the problem. His calculations showed that the curvature of spacetime caused by the Sun’s mass would introduce a correction to the Newtonian description of gravity. This correction perfectly accounted for the missing 43 arcseconds per century without any ad-hoc parameters. Unlike Newton’s theory, where orbits are closed ellipses (in a two-body system), general relativity predicts that orbits are not closed but trace a rosette pattern. This effect is most pronounced for objects in strong gravitational fields and with eccentric orbits, making Mercury the ideal candidate in our solar system. The successful explanation of Mercury’s perihelion precession was one of the first strong pieces of evidence that general relativity was a more accurate description of gravity than Newton’s theory.

天体物理学, 暗物质, 系外行星, 空间

UNESCO Nomenclature: 2211

- 相对论

类型

抽象系统

中断

实质性

使用方法

广泛使用

前体

Kepler’s laws of planetary motion
Newton’s law of universal gravitation
Urbain Le Verrier’s detailed calculations of planetary orbits
狭义相对论

应用

支持广义相对论的第一个主要观察证据
广义相对论和其他引力理论的精度测试
用于约束替代引力理论
高精度天体力学计算

专利：

潜在的创新想法

级别需要会员

您必须是！！等级！！会员才能访问此内容。

立即加入

已经是会员？在此登录

Related to: perihelion precession, mercury, general relativity, newtonian gravity, spacetime curvature, orbital mechanics, celestial mechanics, gravity.