In astronomy, a syzygy It occurs when two or more celestial bodies align in a straight line, with the Earth also positioned along this line. It is used in astronomy and geology to describe a specific alignment or arrangement of three or more celestial objects in space, such as planets, moons, or stars. This phenomenon occurs when these objects are in a straight line or in a particular geometric configuration relative to an observer on Earth.
In this article we are going to tell you everything you need to know about what a syzygy is, when it occurs and what consequences it has.
What is
This phenomenon can be observed from Earth in two main ways:
- When the Moon and the Sun are located on opposite sides of the Earth, this is called opposition.
- In celestial events, when the moon and the sun reach a point of conjunction, their proximity in the sky becomes evident.
Syzygy refers to the alignment of celestial bodies in a straight line. This alignment can take the form of an eclipse, an occultation, or a transit. An eclipse is the phenomenon that occurs when a celestial body is obscured, totally or partially, by an occultation, or when it passes through the shadow of another celestial body. Cloaking occurs when a larger object moves in front of a smaller one, blocking it from view.
The transit phenomenon occurs when a smaller celestial body passes in front of a larger one. Since the smaller body constantly orbits in front of the larger one, This event is known as a secondary eclipse.
Syzygies are interesting events and are often highlighted in astronomy because they can affect the tides or cause eclipses. For example, during a lunar syzygy, the Earth, Moon, and Sun are aligned, resulting in a lunar or solar eclipse, depending on whether the Moon passes through the Earth's shadow or whether the Moon comes between the shadow. Earth and the Sun. Additionally, syzygies can influence tides due to the combined gravitational pull of aligned objects, which can result in higher or lower tides than usual, known as syzygy tides.
Syzygia and spring tides
Syzygy has a direct impact on what are known as "spring tides." Spring tides are especially high tides that occur during periods of new moon and full moon, when the Earth, Moon and Sun are aligned in a syzygy.
The Moon and the Sun exert a gravitational force on the Earth due to their mass. The Moon, due to its proximity to the Earth, has a much greater effect on the tides than the Sun. However, when they are aligned in a syzygy, their gravitational forces add up, meaning that the Moon's joint gravitational influence and the Sun on Earth is stronger.
During a new moon or full moon syzygy, the Earth, Moon and Sun are aligned in a straight line. At this time, the gravitational force of the Moon and the Sun adds up, resulting in a greater gravitational pull on the side of the Earth that is closer to the Moon and on the opposite side of the Earth, towards the Sun. .
The additional gravitational pull causes a warp in the shape of the Earth, creating two "bulges" in the oceans: one in the direction of the Moon and the other in the direction of the Sun. These lumps of water are responsible for high tides during syzygies.
The resulting tides during, with the combined influence of the Moon and the Sun, are known as "spring tides." These spring tides are noticeably higher than normal tides, which occur during other times of the month when the Moon and Sun are not aligned in a syzygy.
At what times do planetary syzygies occur?
Planetary syzygies occur when the planets align during a conjunction or opposition. Regarding planetary calculations, Jan Meeus, a prominent astronomer from Belgium and the main author of most of the planetary calculation algorithms currently used, presented in a 1977 work the infrequency of astronomical events of this nature.
On December 30, 1591, a bright planet underwent its final occultation during a total lunar eclipse. This event occurred when Saturn was obscured by the moon. Furthermore, the alignment of the nine visible planets in 1982 was a truly remarkable spectacle.
The upcoming astronomical events in which the Moon will be eclipsed along with other planets are called syzygies. The next syzygies can be observed in the year 2344, from the northern hemisphere of Saturn. In 2488, they will be visible from Antarctica when the moon will be eclipsed by Mars. Another syzygy can be observed in the year 2932, where the Moon will be partially eclipsed by Jupiter and will be visible from the equatorial regions.
Duration of tides
Spring tides as a result of syzygy do not occur in a single day, but rather follow a monthly cycle that coincides with the lunar phases. The approximate period between two successive syzygies is around 14 days, which is half of a complete lunar cycle, known as a synodic month or lunar month. This synodic lunar cycle is the time it takes for the Moon to return to the same phase (for example, from new moon to new moon).
This is how the cycle works:
- New Moon: The cycle begins with a syzygy in which the Moon, Earth and Sun are aligned. At this point, spring tides occur, with especially high tides.
- First Quarter: As the Moon progresses in its orbit around the Earth, it goes through the crescent and crescent gibbous phases. During this time, the gravitational influence of the Moon and Sun begins to separate, resulting in a gradual decrease in the height of the tides.
- full moon: Then, after about a week from the initial syzygy, a new syzygy is reached in the full moon phase. At this point, the spring tides are high again.
- last quarter: As the Moon continues to advance in its orbit, it goes through the first quarter and last gibbous phases. During this period, the gravitational influence of the Moon and the Sun continues to decrease, and the tides gradually decrease again.
- Return to the new moon: Finally, after about another week-long period, the Moon returns to the new moon phase and a new syzygy occurs. The spring tides are high again and a new cycle begins.
I hope that with this information you can learn more about syzygy and its characteristics.