There is a just as equal pull from the Earth to the sun.
Yes. The Earth and then Sun pull each other towards each other.
Gravity. The gravitational pull of the sun keeps the earth close to the sun.
Gravitational pull.
Yes, there is a gravitational pull that works both ways. Just as the moon is held in orbit by the gravitational pull of the Earth, likewise the gravitational pull of the moon has its effect on the Earth, most commonly seen in its effects on the tides of the ocean. No doubt the gravitational pull of the Sun also effects ocean tides and other unseen effects.
There is a just as equal pull from the Earth to the sun.
The pull of the Sun's gravity is needed to hold the Earth in orbit.
The sun's gravitational pull keeps the earth in orbit around it.
It's called the orbit of the planet. The earth 'orbits' the sun. I don't know the specific name of the line. Maybe the gravitational pull?
Yes. The Earth and then Sun pull each other towards each other.
Gravity. The gravitational pull of the sun keeps the earth close to the sun.
yes. the earth as well as the other celestial bodies, all have their "pull" on the sun and each other.
1. The earth has greater mass 2. the earth is closer to the sun
Because the sun is way bigger than the earth. And the sun's gravitational pull is way stronger than the earth. So the answer is the sun's gravitational pull. Because without the sun we would be floating lost in space
its the gravitational pull from he sun.
It is the sun.
The gravitational pull of the sun.