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Mercury has the planetary orbit that has the greatest inclination to both the ecliptic and the invariable plane.
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The ecliptic is the apparent path of the sun's movement in space, as viewed from the earth.
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It is called the "ecliptic plane"
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Almost. It's when the Full Moon is on the ecliptic.
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The angle between the equinoctial and the ecliptic is known as the obliquity of the ecliptic. It is the angle between the plane of Earth's orbit around the Sun and the plane of the celestial equator. Currently, the obliquity of the ecliptic is about 23.5 degrees.
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Ecliptic means the imaginary line that marks the path the Sun moves on annually. The ecliptic path projects the Earth's orbit and along helps mark when eclipses will occur.
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The ecliptic is the path the sun seems to follow through our sky. Some stars are grouped near the ecliptic, such as the constellations that make up the zodiac.
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The orbit of Eris is 44° from the ecliptic.
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I think you mean the ecliptic. This refers to the paths of the planets as they orbit the sun. Also, the moon and movement of the sun are on the ecliptic when viewed from earth, which is why we get eclipses, from which the word 'ecliptic' is derived.
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No. The Earth's orbit is absolutely parallel to the plane of the ecliptic. Of course, the Earth's orbit is DEFINED as the plane of the ecliptic, so this should be no surprise.
All of the other planetary orbits are tilted to the plane of the ecliptic, but not by a whole lot. The Moon's orbit, for example, is tilted about 5 degrees to the ecliptic.
The axis of the Earth's spin, however, IS tilted by 23.5 degrees to the plane of the ecliptic.
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The 'ecliptic' plane is the plane that contains
the Sun and the Earth's orbit around it.
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Earth's axial tilt is approximately 23.5 degrees from the plane of the ecliptic.
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The plane of Pluto's orbit is inclined 17.2° to the plane of the ecliptic.
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The line of the ecliptic is the path that the sun appears to trace through the sky over the period of a year.
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Eris is tilted at an angle of about 44 degrees to the ecliptic. Although it is considered a dwarf planet.
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No, Cetus is not located on the ecliptic. It is a constellation in the southern sky, and its position varies in relation to the ecliptic, which is the apparent path that the sun follows across the sky as seen from Earth.
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The Ecliptic is the plane of Earth's orbit around the Sun. Other planets are also found more or less on the same plane.
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The ecliptic is the apparent path that the Sun follows through the sky as seen from Earth. It marks the plane of our solar system and is where eclipses occur. It also defines the line along which the zodiac constellations lie.
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The plane of the Earth's orbit around the Sun is called the "ecliptic". Most of the other planets and moons orbit in planes that are close to the ecliptic, but none of them have orbital planes that are exactly the same.
The Moon's orbital plane is about 8 degrees angled to the ecliptic. So most times, the Moon is either above the ecliptic at the new or full, or below it. It is only when the new moon is on the eclliptic that we have a solar eclipse, and only when the full moon is on the ecliptic that we have a lunar eclipse.
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The Ecliptic. To be accurate, the Ecliptic is the plane in which Earth moves around the Sun; the major planets go around the Sun in planes that are close to the Ecliptic.
The Ecliptic. To be accurate, the Ecliptic is the plane in which Earth moves around the Sun; the major planets go around the Sun in planes that are close to the Ecliptic.
The Ecliptic. To be accurate, the Ecliptic is the plane in which Earth moves around the Sun; the major planets go around the Sun in planes that are close to the Ecliptic.
The Ecliptic. To be accurate, the Ecliptic is the plane in which Earth moves around the Sun; the major planets go around the Sun in planes that are close to the Ecliptic.
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The Moon's orbital plane is tilted about 5 degrees relative to Earth's orbital plane around the Sun. This tilt causes the Moon to appear slightly above or below the ecliptic plane at different points in its orbit.
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The plane of the earth's orbit is referred to as the Ecliptic plane.
It also forms the line in the sky that the sun appears to travel through the stars during the course of a year, called the Ecliptic. The constellations of the Zodiac are the constellations arranged around the Ecliptic.
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Gemini is a zodiacal constellation in the northern hemisphere between Taurus and Cancer on the ecliptic.
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No. The Zodiac are 12 constellations that lie in the plane of the ecliptic; circumpolar ("moving around the pole") stars are well above or below the ecliptic.
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The ecliptic passes through 13 constellations, known as the zodiac constellations. These constellations include Aries, Taurus, Gemini, Cancer, Leo, Virgo, Libra, Scorpio, Sagittarius, Capricorn, Aquarius, and Pisces. Additionally, the ecliptic also passes through a 13th constellation known as Ophiuchus.
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No - the moon travels along the same path that the sun and planets travel - the ecliptic. Orion's belt is too far below the ecliptic.
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The path taken by the Sun through the stars over the course of a year is called the ecliptic. This is the apparent annual path of the Sun in the sky as seen from Earth, due to the Earth's orbit around the Sun. The path of the ecliptic also marks the plane of the solar system.
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The shape of the analemma would become more stretched and elongated as the ecliptic-equator angle increases. This is due to the changing angle of the Sun's declination as it moves along the ecliptic throughout the year. A larger angle between the ecliptic and the equator leads to more extreme variations in the Sun's apparent position in the sky over the course of a year.
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That plane is called the Ecliptic.
That plane is called the Ecliptic.
That plane is called the Ecliptic.
That plane is called the Ecliptic.
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The Earth orbits in the plane of the ecliptic in an ellipsoidal orbit that is nearly circular. Comets orbits are highly elliptical and mostly out of the plane of the ecliptic.
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The Moon's nodal cycle is the period it takes for the Moon's orbit to align with the ecliptic plane. This cycle is approximately 18.6 years long and determines when eclipses can occur. The two points where the Moon's orbit intersects the ecliptic are called the ascending and descending nodes.
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That is not correct. The Sun is approximately one MONTH in each of the 12 main constellations of the Ecliptic.
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That is not correct. The Sun is approximately one MONTH in each of the 12 main constellations of the Ecliptic.
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The greatest distance above or below the ecliptic the moon can move is about 5.1 degrees. This is known as the lunar inclination or tilt.
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