Yes. All planets have gravity.
The gravity of the earth is pulling it into orbit.
The answer is actually Jupiter.The acceleration due to gravity is greater on the surface of Jupiter than it isat the surface of any other planet in our solar system (assuming that a surfacecan be defined for each planet).
Yes, there is a relationship between a planet's distance from the sun and its surface gravity. The closer a planet is to the sun, the stronger the gravitational pull from the sun, which can affect the planet's own gravity. However, other factors, such as a planet's mass and composition, also play a significant role in determining its surface gravity.
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.
Weight is the force of gravity acting on an object's mass. Because gravity varies from planet to planet, an object would weigh different amounts depending on the gravitational pull of that planet. For example, an object would weigh more on a planet with stronger gravity, like Jupiter, and less on a planet with weaker gravity, like Mars.
The gravity on Mars or any other planet pulls you toward the planet's center.
All planets have gravity, not just Earth.
No. The gravitational pull at the surface of a planet depends on that planet's mass and radius. Jupiter has the strongest gravity of any planet in the solar system: 2.53 times the surface gravity on Earth. Mercury has the weakest surface gravity at just 37% the gravity on Earth.
Because it is far, far larger.
The gravity of the earth is pulling it into orbit.
-- There is no such thing as the gravity of all the planets. Each planet has its own number, which is different from any other. -- Gravity can't be described in units of cm.
Planet Eris is affected by gravity like any other celestial body in our solar system. It has its own gravitational force that holds objects on its surface and influences other objects around it. Gravity also affects the orbit of Eris as it interacts with other planetary bodies in the solar system.
The acceleration of gravity at the surface of each terrestrial planet is proportional to the mass of each planet and inversely proportional to the square of the planet's radius, with Newton's gravitational proportionality constant, and is not correlated in any way with any characteristic of the planet's atmosphere. In other words: It ain't related.
They all do. Every object in the universe has gravity.
The answer is actually Jupiter.The acceleration due to gravity is greater on the surface of Jupiter than it isat the surface of any other planet in our solar system (assuming that a surfacecan be defined for each planet).
No. All planets have gravity. Any object massive enough to be considered a planet would have strong enough gravity that you could simply escape by jumping. It is, however, possible for an object to escape the gravity of any planet if it is launched in the right way and with enough speed.
No. It is the other way around; gravity depends on mass.