Gravitational fields and gravitational waves

• Published in: Physics essays Vol. 35; no. 2; pp. 208 - 219
• Main Author: Yuan, Tony
• Format: Journal Article
• Language: English
• Published: Ingenta 01.06.2022; Physics Essays Publication
• Subjects: Doppler Effect; Einstein, Albert; Gravitational Constant; Gravitational Field; Gravitational Wave; Gravity; Hoffmann, Banesh; Light; Ligo; Newtonian Gravity; Precession Of The Planets
• ISSN: 0836-1398
• DOI: 10.4006/0836-1398-35.2.208

The relative velocity between objects with finite velocity affects the reaction between them. This effect is known as general Doppler effect. The Laser Interferometer Gravitational-Wave Observatory (LIGO) discovered gravitational waves and found their speed to be equal to the speed of light c. Gravitational waves are generated following a disturbance in the gravitational field; they affect the gravitational force on an object. Just as light waves are subject to the Doppler effect, so are gravitational waves. This article explores the following research questions concerning gravitational waves: Is there a linear relationship between gravity and velocity? Can the speed of a gravitational wave represent the speed of the gravitational field (the speed of the action of the gravitational field upon the object)? What is the speed of the gravitational field? What is the spatial distribution of gravitational waves? Do gravitational waves caused by the revolution of the Sun affect planetary precession? Can we modify Newton's gravitational equation through the influence of gravitational waves?