no... Mercury's diameter is 38.3% of Earth's diameter, its volume is 5.6% of Earth's volume, and its mass is 5.5% of Earth's mass.
The acceleration due to gravity on Mercury is approximately 3.7 m/s², which is about 38% of the acceleration due to gravity on Earth. This is due to Mercury's smaller mass and radius compared to Earth.
The gravity on Mercury is about 38% of Earth's gravity, which means that objects weigh less on Mercury compared to Earth. This is due to Mercury's smaller size and mass compared to Earth.
If the planet is smaller, then it can't have the same size. If you assume that a smaller planet has the same density as Earth (and therefore less mass), its surface gravity will be smaller. If you assume that a smaller planet has the same mass as Earth (and therefore more density), its surface gravity will be greater. This is because we would be closer to the planet's center - or to the planet's matter in general.
Mercury has a high density because it has a large iron core, making up about 60% of its mass. The iron core contributes to Mercury's high average density, which is close to that of Earth's, despite Mercury being a smaller planet.
Mercury is the planet in our solar system with the least mass, with a mass of about 0.055 times that of Earth.
Mercury is the lightest planet, with a mass of 0.055 that of Earth.
Mercury is the inner planet with the most mass.
The planet with the least mass and smallest is Mercury. The planet with the lowest density is Saturn
Mercury
no... Mercury's diameter is 38.3% of Earth's diameter, its volume is 5.6% of Earth's volume, and its mass is 5.5% of Earth's mass.
Ganymede is largerthan Mercury, but has a smaller mass.
The planets that have less mass than Earth are Mercury, Mars and Venus. The planets that have a lower average density than Earth are all of them; Earth is the most dense planet in our solar system.
Mercury has a mass of 0.33x1024kg, and Earth has a mass of 5.97x1024kg. Thus, Mercury has a smaller mass than earth (or, in other words, Earth has a mass that's about 18x greater than that of Mercury).
The acceleration due to gravity on Mercury is approximately 3.7 m/s², which is about 38% of the acceleration due to gravity on Earth. This is due to Mercury's smaller mass and radius compared to Earth.
Mercury
The acceleration of gravity at the surface of Mercury is 3.7 m/sec2. The force on a mass on the planet's surface depends on the size of the mass. The magnitude of the force, in newtons, is (3.7) times (the object's mass).