gravity
Mercury's orbit is inclined at about 7 degrees to the plane of the ecliptic, which is the plane of Earth's orbit around the Sun. This means that Mercury's orbit is tilted relative to Earth's orbit by 7 degrees.
The ecliptic. Because it is the plane that contains the earth as it orbits the sun, by definition it is also the plane that contains the sun as we observe it in its yearly journey through the stars.
The equator is an imaginary line drawn around the Earth parallel to the equatorial plane. The orbit refers to the curved path that an object takes around another object, such as a planet orbiting the sun. So, the equator and an orbit are different concepts related to the Earth's rotation and celestial movements.
YES!!! Together with their sattelites(moons). The nine planets that orbit the Sun from nearest to Sun to furthest are; - Mercury, Venus, Earth, Mars, Asteroid Belt , Jupiter, Saturn, Uranus, Neptune, and Pluto. With the exception of Mercury and Venus, which have no sattelites, all the other planets have sattelites, which partner their parent planet on there orbit around the Sun. All the planets orbits the Sun in approximately the same plane. However, there are comets and meteors which orbit the Sun in different planes, Notably Halley's Comet.
No, Pluto's orbit is inclined relative to the ecliptic plane by about 17 degrees. This means that Pluto's path around the Sun is tilted compared to the orbits of the major planets in our solar system.
That's the "ecliptic plane".
The geometric plane that contains the earth's orbit around the sun and the geometric plane that contains the moon's orbit around the earth are not the same plane. The plane of the moon's orbit is tilted compared with the plane of earth's orbit. If the two planes were co-planar (if they overlapped perfectly) then there would be a lunar eclipse every month.
The 'ecliptic' plane is the plane that contains the Sun and the Earth's orbit around it.
The planets orbit in the same plane because there is no force to take them out of the plane. The plane is the plane of the average rotations of all the elements of the cloud of gases that made up the solar system.
I assume you mean "around the Sun". That is the Earth's orbit. The plane of this orbit is called the ecliptic.
Mercury's orbit is inclined at about 7 degrees to the plane of the ecliptic, which is the plane of Earth's orbit around the Sun. This means that Mercury's orbit is tilted relative to Earth's orbit by 7 degrees.
That's the "ecliptic plane".
The ecliptic. Because it is the plane that contains the earth as it orbits the sun, by definition it is also the plane that contains the sun as we observe it in its yearly journey through the stars.
It would need to be launched into a tangent plane parellel to that of the earth's orbit around the sun, with the same speed of rotation around the sun
The tilt of the Earth's axis in relation to the plane of its orbit.
The plane of Earth's orbit is known as the ecliptic. It is the flat plane in space that represents the path along which the Earth travels around the Sun. The ecliptic is inclined at an angle of approximately 23.5 degrees to the celestial equator.
The Earth orbits the Sun. The plane of the Earth's orbit is called the "ecliptic". The Moon has its own orbit around the Earth, and its own orbital plane. If the plane of the Moon's orbit was the same as the plane of the Earth's orbit, then there WOULD be solar eclipses at every new moon, and lunar eclipses at every full moon. But the plane of the Moon's orbit is NOT the same as the plane of the Earth's orbit - and really, why would they be? The Moon's orbital plane is inclined by about 5 degrees from the ecliptic. Therefore, eclipses only happen at full and new moons about every six months, when the Moon happens to be crossing the ecliptic.