The larger the object, the more 'space' is displaced, and thus, the greater the gravity. The Moon displaces less 'space' than the Earth, so the Moon has less gravity. The space station displaces very little space AND its' shape does not lend itself to taking advantage of the spacial displacement, so it doesn't result in very much gravity.
Stand in a swimming pool and hold a beach ball under the water: the pressure of the water on the ball is a simulation of gravity. Hold a tennis ball under the water: far less pressure, yes? Now, hold something with the exact same collective mass as the beach ball (lets say one of those 'noodle' things the kids play with) and you'll have far less pressure on it than on the beach ball. Why? It has the same mass as the beach ball, so why isn't there the same amount of pressure (gravity) on it? Because the 'shape' of it does not lend itself to take advantage of the gravitational pressure.
Gravity can, however, be simulated with inertia. If the ship spins... centripical force and all that.
no
Gravity
By spinning, the centripetal force creates artificial gravity on the space station.
The force of gravity keeps the space station in orbit as well as inertia that keeps the space station moving in a straight line.
The international space station does not have artificial gravity. The occupants float freely and use a lot of Velcro. Don't confuse fantasy and reality.
no
Gravity
because, gravity pulls ISS(Inter national Space Station)
By spinning, the centripetal force creates artificial gravity on the space station.
The International space station is constantly falling towards Earth under the pull of Earth's gravity (Just like any other object - gravity does not stop when you reach space!). However the Station is moving very fast horizontally and, as the Earth is a sphere, this means that as it falls its path takes it round the Earth in a circle - it is in "orbit". This means that if you are in the space station you are falling as fast as gravity can pull you and therefore you do not feel the pull of gravity, making you weightless.
The force of gravity keeps the space station in orbit as well as inertia that keeps the space station moving in a straight line.
The international space station does not have artificial gravity. The occupants float freely and use a lot of Velcro. Don't confuse fantasy and reality.
no.
the distance
nope its not big enough.
Gravity.
Compared to a planet a space station is tiny. While all objects with mass gave gravity, that of a space station is negligible, and certainly could not keep a moon in orbit.