answersLogoWhite

0

That explanation is logical however the sun DOES have a gravitational force because all the planets orbit around the sun.

User Avatar

Sister Little

Lvl 13
3y ago

What else can I help you with?

Related Questions

What keeps earth in its orbit?

The sun's gravitational pull keeps the earth in orbit around it.


Does our Sun have a gravitational pull?

Yes, everything in the cosmos has a gravitational pull on everything else.


What is the gravitational pull of the sun and the moon?

The regular rising and falling of ocean water due to the gravitational pull of the Sun and Moon is called


What is the gravitational pull of the sun and moon is called?

The regular rising and falling of ocean water due to the gravitational pull of the Sun and Moon is called


Does the sun have gravitional pull?

Yes, It has a strong gravitational pull. Without the gravitational pull, none of the planets would orbit it.


Why do the planets circle the sun?

Planets orbit the Sun due to the gravitational pull between them. This gravitational force keeps the planets in their elliptical paths around the Sun. It is a balance between the planets' inertia wanting to move forward and the Sun's gravitational force pulling them inward.


What planet sun or moon has the strongest gravitational pull?

Neither the sun nor the moon are planets. The sun has the strongest gravitational pull of any object in the solar system.


Why the planets move around the sun?

The gravitational pull of the Sun.


Does the sun have a strong gravitational pull?

Yes it does.


What happens to the gravitational pull between the sun and the object as they get further away from the sun?

the pull weakens


What happened to the pull of gravity when the moon and sun are at right angles?

The Gravitational pull on the oceans is Partially canceled out by the suns Gravitational pull.


What happens to the pull of gravity when the sun and moon at right angles?

The Gravitational pull on the oceans is Partially canceled out by the suns Gravitational pull.