The precession of equinox (/pɹɪˈsɛʃən ʌv ˈiːkwɪnɒks/) refers to the movement of Earth's axis, which traces a cone shape as it rotates, causing the equinoxes to shift slowly over time. This word is spelled with two "s" because it derives from the Latin word "praecedere," meaning "to go before." The "c" in "precession" is pronounced like an "s" because it is followed by "e," making the word sound like "pre-sesh-un." The combination of "x" and "qu" in "equinox" is pronounced like "ks."
The precession of equinoxes refers to the slow and continuous shift of the celestial coordinates of the vernal equinox, also known as the point where the ecliptic intersects the celestial equator, as viewed from Earth. It is caused by the combined gravitational forces exerted on Earth by the Moon, Sun, and other celestial bodies. This astronomical phenomenon results in a change in the Earth's orientation in space over a period of time, causing a cyclic precession.
This precession leads to a gradual alteration in the position and timing of the equinoxes, which are the moments when the length of day and night are approximately equal all over the globe. While the celestial equator remains fixed, the vernal equinox gradually moves westward along Earth's orbit, completing a full circuit in approximately 25,800 years. Consequently, the celestial longitude of the vernal equinox, known as the First Point of Aries in astronomy, also changes over time.
The precession of equinoxes has significant implications for various fields, including astronomy, astrology, and archaeology. In astronomy, it affects the positioning of celestial objects and the measurement of time. For astrology, it influences the zodiac signs through which the Sun appears to pass during the year. And in archaeology, it can assist in accurately dating ancient structures by analyzing the orientation of celestial features.
Overall, the precession of equinoxes refers to the progressive, cyclical movement of Earth's rotational axis, altering the annual astronomical positions and timing of the equinoxes.