No, the mass of a planet is not directly related to its surface area. Surface area is determined by the size and shape of the planet, not just its mass. For example, Earth has a smaller mass than Jupiter, but a larger surface area due to its size and composition.
Among the inner planets, Earth has the greatest mass. It has a mass of approximately 5.97 x 10²⁴ kilograms, significantly more than that of Mercury, Venus, and Mars. Venus comes next in mass, followed by Mars and then Mercury.
You can't convert surface area to mass. It just doesn't make sense.You can't convert surface area to mass. It just doesn't make sense.You can't convert surface area to mass. It just doesn't make sense.You can't convert surface area to mass. It just doesn't make sense.
All planets orbit around the greatest centre of mass. In our solar system, that is our Sun.
No. The surface gravity of a planet depends on its size and mass, not its distance from the sun.
Planet sizes are directly related to their surface gravity due to their mass and radius. Larger planets typically have greater mass, which increases their gravitational pull. However, if a planet is significantly larger but less dense, its surface gravity may not be as high as expected. Thus, surface gravity is influenced by both the planet's size (radius) and its density (mass per unit volume).
Earth
If you are referring to two planets of the same MASS, then the difference in surface area would probably be due to their relative densities. If one planet is composed of denser matter than the other, then the same mass would take up a smaller volume, and thus the surface area would be smaller.
Among the inner planets, Earth has the greatest mass. It has a mass of approximately 5.97 x 10²⁴ kilograms, significantly more than that of Mercury, Venus, and Mars. Venus comes next in mass, followed by Mars and then Mercury.
The object with the greatest mass.
Mass does not change when one is traveling between planets, because mass is the measure of how much mater there is.
Earth has the strongest gravitational pull.
You can't convert surface area to mass. It just doesn't make sense.You can't convert surface area to mass. It just doesn't make sense.You can't convert surface area to mass. It just doesn't make sense.You can't convert surface area to mass. It just doesn't make sense.
All planets orbit around the greatest centre of mass. In our solar system, that is our Sun.
Jupiter has the greatest mass relative to Earth.
The force of gravity at the surface of the eight planets is called surface gravity. It is the gravitational pull experienced by objects on the surface of a planet due to its mass.
A planet with a greater mass does not necessarily have greater surface area than one with less mass. The planet could be made of denser material and have a smaller surface area. Mass doesn't always mean volume.
Mass does not directly affect surface area. Surface area is a measure of the total area of an object's external surfaces, while mass is a measure of the amount of matter in an object. However, as the mass of an object increases, its volume typically increases as well, which can indirectly affect its surface area if the shape remains constant. Objects with larger masses may have larger surface areas if their volume increases proportionally.