Our eyes can only see as far as the horizon, due to the curvature of the Earth. For instance, an observer standing on a hill 100 feet (30 m) in height, their horizon is at a distance of 12.2 miles (19.6 km). Obviously, without the restriction of a horizon, we can look out far into space on a dark night and see our moon and many stars and planets with the naked eye - even better with a telescope.
Yes. Think of it like this, and object, orbiting an object, orbiting an object, orbiting an object. If Earth can orbit the sun with the moon still orbiting the Earth, then what keeps a moon from orbiting our moon? Size and distance. Yes, in theory, but very unlikely to be a stable system.
No. It is impossible for that to occur.
Gravity on the moon has exactly the same characteristics and behavior as it has on Earth and everywhere else. It causes a pair of forces between any two objects, that are proportional to the product of the objects' masses and inversely proportional to the square of the distance between their centers. Because of the moon's much smaller mass, the force between the moon and an object on its surface is only about 16% as strong as the force between the Earth and the same object when the object is on the Earth's surface.
Every object visible in the sky sets in the west.The phase of the moon has no relationship to and no effect onthe motion of any other natural object in the sky.
the moons gravitational pull is about 1/10 that of earth. that is why astronauts weigh so little on it. > Standing the same distance from each, with the same mass, the force due to gravity of earth is approx 81 times that of the moon, which incidentally, is also the mass of the earth compared to the moon. > The comparison of gravity on the surface of each: 1 kg mass on the earths surface = 1 kg force / weight 1 kg mass on the moons surface = 1/6 kg force / weight
The distance between Earth and Moon changes. Like any object going in an orbit around another object, the Moon moves around Earth in an ellipse, not in an exact circle.
Yes. Think of it like this, and object, orbiting an object, orbiting an object, orbiting an object. If Earth can orbit the sun with the moon still orbiting the Earth, then what keeps a moon from orbiting our moon? Size and distance. Yes, in theory, but very unlikely to be a stable system.
The movement of any astronomical object is governed by physical laws. It is therefore impossible for them not to move 'properly'.
The weight of any object on the Moon is about 1/6 of the weight of the same object on the Earth.
Yes. The gravity on the surface on the moon is about 1/6 what it is on Earth.
Well,satellite means any object orbiting a larger object,so any body will do including the moon. Any object which orbits a planet is a satellite. The Moon is Earth's only natural satellite. All the other objects which orbit the Earth are artificial satellites.
No. It is impossible for that to occur.
Gravity on the moon has exactly the same characteristics and behavior as it has on Earth and everywhere else. It causes a pair of forces between any two objects, that are proportional to the product of the objects' masses and inversely proportional to the square of the distance between their centers. Because of the moon's much smaller mass, the force between the moon and an object on its surface is only about 16% as strong as the force between the Earth and the same object when the object is on the Earth's surface.
In astronomy, the amount of light reflected by the Moon - or by any other object - is called "albedo", which literally means "whiteness".In astronomy, the amount of light reflected by the Moon - or by any other object - is called "albedo", which literally means "whiteness".In astronomy, the amount of light reflected by the Moon - or by any other object - is called "albedo", which literally means "whiteness".In astronomy, the amount of light reflected by the Moon - or by any other object - is called "albedo", which literally means "whiteness".
Any object on the moon weighs 1/6th of what it weighs on Earth. For e.g., a 6kg object will weigh only 1kg on the moon.
I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.I don't think it should have any effect. The tides are caused by nearby objects, especially the Moon and the Sun. The tidal forces are (approximately) inversely proportional to the thirdpower of the distance, so although the Sun attracts us stronger than the Moon, the Moon has a greater influence on the tides. A far-away object should have no noticeable effect on the tides.
No. Any object on the moon would weigh about a sixth of what it does on Earth.