YES! the size of the planet does effect your throwing ability! If you get each planets' gravity number then you will notice that the smaller the planet the less gravity force/attraction it will have. If you go to Jupiter and throw a football the gravity will pull down on the football faster and make your throw much shorter than it would on Earth because Jupiter has a bigger gravity number then Earth.
size by ninapies
Dna overload
It's ability to sustain life - despite the vast size of the universe, so far earth is the only planet with the ability to sustain life
There is no "typical" size for a planet, as they can vary greatly in size. However, Earth is considered an average-sized planet in our solar system.
The internal temperature and composition of a planet's core have the greatest effect on its level of volcanic and tectonic activity. A planet with a hot, molten core is more likely to experience frequent volcanic eruptions and tectonic plate movement. Additionally, a planet's size and distance from its star can also influence its geological activity.
The size of the planet doesn't have an effect on how fast a planet spins, therefore the speed to spin is random or has some other factor.
No planet is exactly the size of Earth. Venus is close to Earth's size but slightly smaller.
There is no planet that has the same size moon as the planet. This is only possible if Pluto was still a planet.
It is 8th largest on planet size after Mars.
Venus is closest to earths planet size.
No planet.
1). As an artificial space vehicle approaches and passes another planet, we can observe the effect of the other planet on its motion. 2). Knowing the vehicle's mass, and the effect the other planet has on its motion, we can calculate the other planet's mass. 3). Knowing the time the other planet takes to revolve around the sun, we can calculate its distance from the sun. 4). Knowing the other planet's distance from the sun, and its apparent size as seen from earth, we can calculate its actual size. 5). Knowing the other planet's actual size and mass, we can calculate the gravitational field at its surface, or at any distance from its center. 6). Knowing the gravitational field at any distance from the center of the other planet, we can calculate the weight that any familiar object would have if it were on or near that planet.