Yes. The massive giant planets have far more moons than the less massive terrestrial planets.
Yes, the number of moons can affect the mass of a planet to some extent, as the gravitational pull between the planet and its moons can influence each other. However, the effect is usually minimal compared to the mass of the planet itself.
Jupiter is the planet in our solar system with greater mass than the combined mass of all the other planets and their moons.
Jupiter and Saturn are the most massive planets in the solar system and so have the greatest gravitational effect.
Yes, the mass of a planet can influence the number of moons it has. A planet's gravity can capture objects like satellites and smaller bodies, increasing the likelihood of having more moons. Additionally, larger planets with stronger gravitational pull generally have more moons compared to smaller planets.
The total mass of all the planets, moons and asteroids, etc. is approximately equal to 0.14% of the mass of the Sun. Of that, more than half is the mass of Jupiter.
Yes, the number of moons can affect the mass of a planet to some extent, as the gravitational pull between the planet and its moons can influence each other. However, the effect is usually minimal compared to the mass of the planet itself.
Jupiter has a greater mass than the combined mass of all the other planets and their moons in our solar system.
Jupiter has a greater mass than the combined mass of all the other planets and their moons in our solar system.
Jupiter is the planet in our solar system with greater mass than the combined mass of all the other planets and their moons.
Jupiter and Saturn are the most massive planets in the solar system and so have the greatest gravitational effect.
Jupiter
Jupiter
Yes, the mass of a planet can influence the number of moons it has. A planet's gravity can capture objects like satellites and smaller bodies, increasing the likelihood of having more moons. Additionally, larger planets with stronger gravitational pull generally have more moons compared to smaller planets.
The total mass of all the planets, moons and asteroids, etc. is approximately equal to 0.14% of the mass of the Sun. Of that, more than half is the mass of Jupiter.
Planets have moons because they formed from the same materials in the same region of space. Moons can be captured asteroids or debris from planetary collisions that were pulled in by a planet's gravity. The presence of moons also helps stabilize a planet's rotation and orbit.
because the smaller planets have less mass, which means less gravity, so they won't attract any moons.
"Weight" is not really a good word to use. A better term is "mass". The outer planets all have moons, and these can be used to get a value for the planet's mass ... the orbital period of a satellite depends on the mass of the primary and the semi-major axis of the orbit. It's possible to get quite good mass values for the outer planets by studying the orbits of their moons.