Around 12 astronauts have worked on the moon.
Astronauts have travelled to lots of places in space like Neil Armstrong and Buzz Aldrin went to the moon and other astronauts have gone to lots of other moons like some of Saturn's moons also astronauts have been to the international space station.
The moons equivalent of the outer hebradies
Irrespective of where the astronaut is, their mass is going to be remain the same
None in reality - BUT the probability of having moons goes up as mass of the central planet rises.
Around 12 astronauts have worked on the moon.
The mass will hardly change. What changes is the weight.The mass will hardly change. What changes is the weight.The mass will hardly change. What changes is the weight.The mass will hardly change. What changes is the weight.
Astronauts have travelled to lots of places in space like Neil Armstrong and Buzz Aldrin went to the moon and other astronauts have gone to lots of other moons like some of Saturn's moons also astronauts have been to the international space station.
The moons equivalent of the outer hebradies
Because of the moons gravitational force.
No. The mass of a planet affects the number of moons it has. More massive planets tend to have more moons.
Because the mass of the planet - its weight and size - create different degrees of gravity.
Irrespective of where the astronaut is, their mass is going to be remain the same
The mass of a planet has nothing to do with its number of moons. For instance, Mars' mass is much less than that of Earth, yet Mars has two moons (Deimos and Phobos) while the Earth has one. (Luna)
None in reality - BUT the probability of having moons goes up as mass of the central planet rises.
The orbit of moons reveals the mass of the planet.
The moons gravity is less than that of the earth, since the earths mass is greater than the moons mass. Gravity is related to mass and distance from that mass. The greater the mass, the greater the gravitational field it has.