True.
The mass of the planet, the mass of the sun and the distance between the two.
All planets have gravity, and will attract other objects. The strength of the attraction is determined by the mass of the planet and the distance to the object.
The mass of planet Earth is 5.9736 × 1024 kg
A more massive planet is attracted more by the Sun if other things like the distance are equal. The force of gravity on a planet is proportional to the mass of the planet and inversely proportional to the sare of the distance.
Jupiter
Yes.
The mass of the planet, the mass of the sun and the distance between the two.
No. A planet's gravitational pull is determined by the planet's mass. A planet's orbital speed is determined by the the mass of the Sun and the planet's distance from the Sun.
The orbital circumference of a planet is determined by both the mass and size of a planet. Although a planet will orbit the sum in an eliptical sphere shaped orbit, the circumference of these are almost always relative to the mass and density of the planet. It is also determined on how far away it is from the sun. The orbital circumference of a planet is determined by both the mass and size of a planet. Although a planet will orbit the sum in an eliptical sphere shaped orbit, the circumference of these are almost always relative to the mass and density of the planet. It is also determined on how far away it is from the sun.
The escape velocity is determined by the gravity of the planet which in turn is determined by the mass and size of the planet
Somerville MA currently does not have a mass transit system.
No. Weight is the measure of how much force a planet pulls an object, that force is determined by the planet's mass and radius, and each planet has a different mass and radius.
Volume
Binhai Mass Transit was created in 2004.
Metro mass Transit L.T.D was created in 2003.
The largest mass transit on land is a train and on sea it is the sea liner.
All planets have gravity, and will attract other objects. The strength of the attraction is determined by the mass of the planet and the distance to the object.